Quantum Sonification

Listen to Quantum Circuits

Each measurement outcome becomes a sine wave. Probability controls amplitude, bitstring value controls frequency. A perfect Bell state is a clean two-note octave. A noisy hardware run is a fuzzy cluster of tones.

78 experiments·220 Hz (A3) to 880 Hz (A5)·Web Audio API

New to quantum sound? Start with the Meeting Tuna-9 — a guided tour of a 9-qubit quantum computer.

Featured

Bell States8

GHZ States6

VQE Chemistry40

+28 more

QAOA MaxCut2

Other22

+10 more

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Select an experiment to listen

Each measurement outcome becomes a tone. Probability is amplitude, bitstring value is frequency.

How It Works

Frequency

Bitstring integer value mapped linearly from 220 Hz (|00...0⟩) to 880 Hz (|11...1⟩).

Amplitude

Measurement probability controls the volume of each tone. Rare outcomes are quiet.

Noise = Fuzz

A perfect Bell state: two clean notes. Noisy hardware: many quiet tones blur the chord.