Q-NOISE // v2.4.1
SYS.STATUS NOMINAL
FREQ 440.00 Hz

12.8231°N // 80.0444°E

SNR ∞ dB

RLC.FILTER // ACTIVE
NEURAL.PREDICTOR // STANDBY
DECOHERENCE 0.00%

ESP32-S3 // CONNECTED
ADC.SAMPLES 4096
LOOP 12.3 μs

// Section 01 — The Signal

Quantum states
are perfect.
Until they aren't.

A journey through decoherence, noise, and the algorithms that fight back.

// Section 02 — The Chaos

Decoherence

When a quantum bit interacts with its environment, the fragile superposition collapses. Every electromagnetic whisper, every thermal fluctuation — is your signal's enemy. Turn the knob. Feel the breakdown.

Noise Level Drag to inject noise

// Section 03 — The Shield

Two weapons.
One signal.

Drag the divider. Watch the RLC filter smooth the chaos — then see the Neural Predictor erase it entirely.

          RLC FILTER
        

          NEURAL PREDICTOR
        

⇄

// RLC FILTER

A passive analog circuit — resistor, inductor, capacitor — that attenuates high-frequency noise. Simple, reliable, but introduces phase lag. The old guard.

// REFERENCE SIGNAL

The ideal sine wave used as the baseline. It represents the clean target signal before decoherence, interference, and phase distortion affect the system.

// NEURAL PREDICTOR

An LSTM trained on noise signatures. It doesn't just filter — it anticipates. Zero phase distortion. Learns the noise profile in real-time. The new weapon.

// Section 04 — Hardware In The Loop

Where software
meets silicon.

Hover over the ESP32. Watch the system assemble itself — from bare metal to neural inference.

ESP32-S3 // RLC CIRCUIT // NEURAL RUNTIME // DASHBOARD

Quantum statesare perfect.Until they aren't.