Therefore, the paper explains how some logical operations can be done relatively easily, while some others require manipulations of error correction scheme to work. (The names of these manipulations are Fake surgery And Magic state distillationWhich are good signs that the area does not take itself He seriously.)

Therefore, in short, Microsoft feels that it has identified an error correction plan that is quite compact, can be efficiently implemented on hardware that stores the quints in photons, atoms, or stuck ions, and enables universal calculations. However, this has not been done, it shows that it actually works. And this is because it is not yet hardware. Azure is offering ionu and qantinuum ionuams, but are at the top at 56 Qubits – below 96 required for their favorite version of these 4D code. It has the biggest access, which is a 100-quit machine from a company called Pascal, which barely fits for the need of 96 Qubetes, causing no error.

While it should be possible in the same family to test small versions of the code, the Azure Team Already performed Its ability to work with the error correction code based on hypercond, so it is not clear whether to achieve anything from that point of view.

More atom

Instead, it is waiting for another companion, atom computing to field its next generation machine, one is designing it in partnership with Microsoft. “This is the first generation that we are making simultaneous between Atom Computing and Microsoft, will include state -of -the -art quantum capabilities, it will have 1,200 physical quits,” Swar said “and then the next upgrade of that machine will be above 10,000.