I very much doubt it. The algorithms aren't there. The engineering to build the hardware to read the wind isn't there for Rube Goldberg quantum machines nor Turing complete finite state qbit solutions.
What wouldn't surprise me is prototype hardware that allows binary computers to access hardware that acts as a GPU (QPU) with 3 to 8 states per bit and sufficient parity that exceeds what academic labs are doing. It might be physically huge and full of kludgy coding and engineering and sloppy but statistically accurate enough algorithms to get a lot of hardware running in parallel. Not at all in a reasonable state to trickle down to private industry and full of dead ends but still doing things that were impossible 5 years ago.
I very much doubt it. The algorithms aren't there. The engineering to build the hardware to read the wind isn't there for Rube Goldberg quantum machines nor Turing complete finite state qbit solutions.
What wouldn't surprise me is prototype hardware that allows binary computers to access hardware that acts as a GPU (QPU) with 3 to 8 states per bit and sufficient parity that exceeds what academic labs are doing. It might be physically huge and full of kludgy coding and engineering and sloppy but statistically accurate enough algorithms to get a lot of hardware running in parallel. Not at all in a reasonable state to trickle down to private industry and full of dead ends but still doing things that were impossible 5 years ago.