> If you look at the mathematics there is really nothing so weird or magical about quantum mechanics or using it to perform factorization ...
Yes, if you examine the mathematics that's true, but if you examine the physics it's not true. The problem doesn't lie with algorithm design, the problem lies with putting them into practice in actual physical computers.
> QM in general is really pretty simple and even obvious if you ignore the silly mythology and just follow the math.
On the contrary, not at all simple if one must try create an actual physical realization.
This is not to suggest that the problems won't be overcome, only that they're more formidable than describing how easy it is in principle.
Yes, if you examine the mathematics that's true, but if you examine the physics it's not true. The problem doesn't lie with algorithm design, the problem lies with putting them into practice in actual physical computers.
> QM in general is really pretty simple and even obvious if you ignore the silly mythology and just follow the math.
On the contrary, not at all simple if one must try create an actual physical realization.
This is not to suggest that the problems won't be overcome, only that they're more formidable than describing how easy it is in principle.