All labs in this subject now open on individual routes.
Loading page content.
Hardware-constrained learning for quantum computing and artificial intelligence
Math subjects
Explore state geometry, superposition, interference, tunneling, entanglement, and measurement collapse through visual-first interactive labs.
All labs in this subject now open on individual routes.
Foundational visual-first labs for rapid entry.
Hands-on control surfaces for protocol and systems reasoning.
Higher-complexity labs that reveal structure and tradeoffs directly.
Interactively explore qubit states, rotations, and measurement axes.
Quantum Mechanics & Information
Control polar and azimuthal angles, apply common single-qubit gates, and watch the qubit move through the Bloch sphere coordinate system.
|psi> = cos(theta/2)|0> + e^{i phi} sin(theta/2)|1>
Visualize how alpha|0> + beta|1> responds to basis changes and phase shifts.
Quantum Mechanics & Information
Tune amplitudes and relative phase, then compare how the same state looks under computational, Hadamard, and custom measurement bases.
See constructive and destructive interference in amplitude evolution.
Quantum Mechanics & Information
Adjust path length, wavelength, amplitude, and detector distance to move between bright and dark interference outcomes.
Simulate a packet tunneling through adjustable potential barriers.
Quantum Mechanics & Information
Vary barrier width, barrier height, and packet energy to see when transmission collapses and when wave behavior still leaks through.
Create Bell states and visualize their correlation patterns.
Quantum Mechanics & Information
Pick a Bell state, rotate Alice and Bob measurement settings, and inspect how expectation values and correlation strength change.
Watch how repeated measurements collapse a superposed state.
Quantum Mechanics & Information
Set the state angle, choose a measurement basis, and run repeated shots to compare expected probabilities against sampled outcomes.