All labs in this subject now open on individual routes.
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Hardware-constrained learning for quantum computing and artificial intelligence
Algorithm subjects
Step through core algorithmic ideas such as teleportation, Deutsch-Jozsa, the QFT, Shor-style period finding, and Grover amplification.
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.
Step through the full quantum teleportation protocol.
Quantum Algorithms
Prepare a message qubit, entangle a resource pair, then inspect the classical correction needed to recover the remote state.
See how one oracle query separates balanced from constant functions.
Quantum Algorithms
Switch between balanced and constant oracle families, run the circuit, and inspect the final measurement signature.
Map basis states into periodic frequency structure with the QFT.
Quantum Algorithms
Choose register size and input basis patterns, then inspect how the transformed state concentrates around periodic peaks.
Factor small composites using the period-finding workflow.
Quantum Algorithms
Pick a small composite and a valid base, run the period-finding step, and inspect how classical post-processing recovers non-trivial factors.
Visualize repeated Grover iterations and amplitude amplification.
Quantum Algorithms
Choose a search space, mark a target, and watch the probability mass rotate toward the target state as iteration count changes.