As of yet, quantum computers need exotic cooling. Perhaps there will be some clever way around that, but it may not be solvable. That would keep it forever out of reach of common home or office use.
With innovation and time, it’ll become more easily handled
Not if you’re literally bumping against the laws of physics of the universe. There may be some things that will never come to pass, technologically. FTL travel might be one of them, for example.
As of yet, quantum computers need exotic cooling. Perhaps there will be some clever way around that, but it may not be solvable. That would keep it forever out of reach of common home or office use.
And digital computers needed tube relays and entire buildings to work. With innovation and time, it’ll become more easily handled
Not if you’re literally bumping against the laws of physics of the universe. There may be some things that will never come to pass, technologically. FTL travel might be one of them, for example.
Honestly the laws of physics are constantly in flux and there’s no telling what we could create to circumvent the limits we’re currently pushing.
As I mentioned in my example: before the innovations with transistors, there was no way to make a portable computer. It was physically impossible
You can’t just assume any one thing will work out. There are plenty of dead ends in technology.
While true, it doesn’t mean we should stop. At worst, we find techniques that improve other areas of technology
I’d love to see us figure out a way to cool quantum computers for the same price it costs to power conventional ones.
Imagine what such efficiency gains would mean for food preservation in poor nations.
I’m more expecting innovations to reduce the need for the super cooling but same