If This Is The Conversion Of Classical Bit To Qubit . . . X-State = (1 + -1 × X / √(X² + Y² + Z²)) / 2 Y-State = (1 + -1 × Y / √(X² + Y² + Z²)) / 2 Z-State = (1 + -1 × Z / √(X² + Y² + Z²)) / 2 . . . Could This Be Used To Compress Data To The , "0 → 1 State", Then Decompressed, Once Arrived At The Remote Application?
Not a scientist, but why do you talk about the potential of superposition to hold large amounts of data and then not describe how you can do that? Isn't the science there yet?
Imagine a nano 🔬 chip 🍟 placed [attached] to a bio-physical environment that has and reacts to biological - physical - and chemical properties, working on a quantum atomic nuclear clock ⏰ and picking up all sorts of frequencies within its immediate distance. Imagine how that feels!
Andrea is awesome. I'd love to work in his lab.
If This Is The Conversion Of Classical Bit To Qubit . . .
X-State = (1 + -1 × X / √(X² + Y² + Z²)) / 2
Y-State = (1 + -1 × Y / √(X² + Y² + Z²)) / 2
Z-State = (1 + -1 × Z / √(X² + Y² + Z²)) / 2
. . . Could This Be Used To Compress Data To The , "0 → 1 State", Then Decompressed, Once Arrived At The Remote Application?
I went through half this talk thinking ESR was equivalent series resistance rather than electron spin resonance. I dumb
"The antenna blew up."
No effects before causes at the nuclear spin level?
Like a digital camera.
It looks like blood beins
Am I the only person who didn’t understand anything from this lecture 😮
Not a scientist, but why do you talk about the potential of superposition to hold large amounts of data and then not describe how you can do that? Isn't the science there yet?
Imagine a nano 🔬 chip 🍟 placed [attached] to a bio-physical environment that has and reacts to biological - physical - and chemical properties, working on a quantum atomic nuclear clock ⏰ and picking up all sorts of frequencies within its immediate distance. Imagine how that feels!
?
Quantum Computing calculations are very unpredictable.
When you think of all possibilities, quantum computer can come up with yet another unforseen possibility.
Could anyone even fathom how relative time is with this extraordinary machine? I set an alarm for 1:00 am and it sounds off at 12:10 am.
Let say a computing machine somewhere in the future collects information based on digital media and files . . .
. . . When compiling all information, how many time-lines could derive from all public and private sources?
This requires access to every web system that runs on artificial intelligence and subsystems.