First classical bit from the Bell measurement.
Loading page content.
Hardware-constrained learning for quantum computing and artificial intelligence
Simulation studio
Prepare a message qubit, entangle a resource pair, then inspect the classical correction needed to recover the remote state.
The lab is a protocol walkthrough rather than a black-box animation, so each classical bit and correction gate remains visible.
Subject context
Step through core algorithmic ideas such as teleportation, Deutsch-Jozsa, the QFT, Shor-style period finding, and Grover amplification.
Live lab
These academy-style labs are designed as compact, browser-playable teaching surfaces: enough interaction to make the core idea legible, without pretending to be a full research workbench.
Interactive academy lab
Teleportation is a protocol, not a magic jump: a Bell measurement plus two classical bits determine which correction Bob must apply.
Controls
Outputs
First classical bit from the Bell measurement.
Second classical bit from the Bell measurement.
Correction Bob applies to recover the message.
The message never travels as an independent particle. What moves forward are two classical bits and a correction rule anchored to a pre-shared entangled pair.
What this teaches
The lab is a protocol walkthrough rather than a black-box animation, so each classical bit and correction gate remains visible.
Prepare a message qubit, entangle a resource pair, then inspect the classical correction needed to recover the remote state.
Keep exploring