Quantum Physics
Real-time Simulation
Scientific Visualisation
Rust
Thermal Dynamics Quantum Simulator
A real-time quantum simulation that visualises thermal energy as quantum wavefunctions, creating interference patterns between CPU and GPU thermal data.
This project collects live thermal data from your CPU and GPU via Windows API, then computes quantum wavefunction probabilities from the live data collected. Displaying electron probability clouds on a 2D grid with dynamic resolution. Each grid coordinate is its own micro electron probability cloud. The brighter the colour, the higher the probability. Combined together, the coordinates show interesting interference patterns as a result of the thermal phase relationship between the CPU and GPU's heat data.
Thermal energy is mapped to quantum frequencies using Boltzmann constant and reduced Planck constant, creating true quantum interference between CPU and GPU wavefunctions. The system performs 125,000+ coordinate calculations rendered as quantum probability clouds, with different axis responding to different thermal sources for realistic patterns.
This project collects live thermal data from your CPU and GPU via Windows API, then computes quantum wavefunction probabilities from the live data collected. Displaying electron probability clouds on a 2D grid with dynamic resolution. Each grid coordinate is its own micro electron probability cloud. The brighter the colour, the higher the probability. Combined together, the coordinates show interesting interference patterns as a result of the thermal phase relationship between the CPU and GPU's heat data.
Thermal energy is mapped to quantum frequencies using Boltzmann constant and reduced Planck constant, creating true quantum interference between CPU and GPU wavefunctions. The system performs 125,000+ coordinate calculations rendered as quantum probability clouds, with different axis responding to different thermal sources for realistic patterns.
Rust
Windows API
Quantum Physics
Thermal Sensor data
Key Features
Live Thermal Data Collection
Real-time CPU and GPU temperature and fan RPM data via Windows API
Quantum Wavefunction Computation
Thermal energy mapped to quantum frequencies using Boltzmann and Planck constants
Interference Pattern Visualisation
Quantum interference between CPU and GPU wavefunctions
High-Resolution Grid
125,000+ coordinate calculations rendered as quantum probability clouds
Real-time Rendering
Dynamic 3D visualisation with adjustable resolution
Thermal-Quantum Bridge
Temperature fluctuations create dynamic interference signatures
Project Metrics
50³
Grid Resolution
Maximum coordinate calculations
125,000+
Calculations per Second
Wavefunction probability computations
2 GB
Memory Usage
RAM requirement at max resolution
1 °C
Thermal Sensitivity
Responds to temperature changes
Rust
Language
100% Rust implementation
Interactive Demo
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