uvQbit
ACT I — ENTRY
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Josephson Junction
15 mK · Dilution Refrigerator · Superconducting Transmon
IBM Quantum · Dilution Refrigerator15 mK · 6 thermal stages · hover to separate
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Select Quantum Processor
28 backends · Superconducting · Trapped Ion · Photonic · Neutral Atom · Annealing
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COMPUTE TOPOLOGY
Quantum Geographic Codex
28 QPUs · 6 modalities · drag to rotate · scroll to zoom
CLICK A QUBIT FOR CALIBRATION DATA
GATES
BLOCH
MAGNETIZATION
RSI: --
MACD: --
Click on the grid to place gates · drag from palette · arrows to navigate
Measurement Histogram
Gate Distribution
Per-Qubit Error
Signal Data Flow
Waveform (top)
Each gate in your circuit generates a Morse-encoded signal. H→high freq (220Hz), CZ→low pulse (110Hz). The wave decays over ~2s. Switch styles with the ♫ modifier.
Frequency Spectrum (mid)
Summed power of all active waveforms scrolling left. Height = combined amplitude of gate signals still ringing.
Noise Floor (dashed)
Real CZ gate error rate from ibm_marrakesh calibration (2.4×10⁻³). Individual CZ error markers shown as dots.
Data Flow Pipeline (mid)
7-stage signal path from QPU to classical readout:
QPU Chip → Cryostat → Control μW → Amplifier → Digitizer → Discriminator → Classical
Gold particles flow left-to-right showing data in transit. Each node pulses with the signal cadence. Adapts to whichever QPU you selected in Act I.
Calibration Symphony (bottom)
10 QPU voices pulsing in real time. Each bar maps real device metrics:
T1 (coherence) → bar height/sustain
Error rate → wobble/detuning
CLOPS (speed) → pulse rhythm
Beams flow up into the pipeline when a QPU peaks. Per-voice T1 and error stats shown below each bar.
Morse Output (bottom text)
The message "HERON R2" encodes letter-by-letter into Morse: dot = short high tone, dash = long low tone.
Waveform
Quantum Analysis
ibm_marrakesh · Heron r2 · luvukid0 · 5 qubits · 1024 shots
Prefix Metrics
Measurement Histogram
Qubit States
Circuit QPU Run
Speed
Hover a point

VI Quantum Hardware

VI Performance & Topology

EPLG vs QPU
Q-Sphere · Statevector
Particle Collision · ALICE

VI Research References

♦ Research
QUANTUM INTEL
STEP 1 / 8