@jaycho6747

Here I am still using Windows 95 at home…

@UXER260

Quantum computers aren't an upgrade to regular computers. There are a completely different thing. They aren't replacements.

@robinhodson9890

"Quantum computers" is a misnomer: They're not computers at all. More like an ALU, ie the calculator part of a computer, but only for very specific operators, eg simulating parts of physical systems, or factorising numbers. The simulation (basically partical physics) side is going really well, although hardly anyone mentions it. The wheels have fallen off the factorising bus though: So far, they've "proven" 21 is the highest 5-bit prime. This is a problem, because 31 is the highest 5-bit prime, and 21 isn't prime at all. So so far, quantum supremacy looks unlikely. So why do it then? Two reasons, (1) quantum computing attracts funding, talent, and prestige. (2) It's cheaper than a particle accelerator. It is very good for physics research.

@VrayCat

The comparison between a supercomputer and a quantum computer, even if the supercomputer is the fastest ever built, hinges on the fundamental differences in how they operate and the types of problems they can solve.

1. Supercomputers:
   - Supercomputers are built using classical computing principles, where they process information in bits (0s and 1s). They perform operations by executing instructions in a sequential or parallel manner, depending on how many processors are used.
   - The "fastest supercomputer" would still be bound by the limits of classical computation, no matter how advanced. For example, while they can solve complex calculations incredibly fast, certain types of problems (like factoring large numbers, simulating molecular interactions, or optimizing large-scale problems) become exponentially harder as the size of the problem increases.

2. Quantum Computers:
   - Quantum computers, on the other hand, leverage quantum bits (qubits), which can exist in a superposition of states (both 0 and 1 simultaneously). They also take advantage of quantum entanglement and quantum interference to process information in a fundamentally different way.
   - A quantum computer can potentially solve specific problems far faster than any classical supercomputer, especially for problems that scale exponentially in difficulty with classical computation. For instance, quantum computers are expected to revolutionize fields like cryptography, materials science, and drug discovery by solving problems that classical computers would take thousands or millions of years to complete.

Can the fastest supercomputer compare to a quantum computer?
In terms of raw power for solving classical problems, a supercomputer will always be more powerful than a quantum computer simply because supercomputers are designed to handle a broader range of tasks efficiently. But when it comes to certain specialized problems—like factoring large numbers (which is important for cryptography), simulating quantum systems (which classical computers struggle with), or other quantum-related problems—quantum computers have the potential to outperform supercomputers by orders of magnitude.

Conclusion:
Even the fastest supercomputer likely can't "compete" with a quantum computer on problems tailored to quantum algorithms. However, for general-purpose tasks, supercomputers are still the dominant force, and quantum computers are expected to complement classical computing, rather than fully replace it, at least for the foreseeable future.

@Mr_MushReal

Quantum computers still won’t be able to handle the lag of Roblox 💀

@richardjames6947

When AI Supercomputers design Classical Supercomputers merged with Quantum Computers who have the ability to interact, make independent handshakes, utilize and share resources with other AI Quantum Supercomputers, it is over. Supposedly it has already happened.

@reyrox3274

Quantum - todays word for magic .

@robinhodson9890

"Supercomputers are limited by classical physics..." Now hang on a minute: There isn't any difference between quantum physics and classical physics: They both describe the same world. Quantum effects are what we're after, but that's still going by the rules of classical physics. Some effects are fairly-well understood & used, like quantum tunnelling. Most are not. They only appear non-intuitive because we lack the tools to study them, so they get talked of in terms of probabilities and waveform collapse, but this isn't what happens at a fundamental level: There are only certainties and superpositions don't exist, to collapse in the first place. Talk like that is a sort-of fiction to make things easier to understand, although I think that ship has sailed.

@michaelgonzalez9058

The storage of quantum computer is the basic computer system

@erikmolnar6585

How did that guy roll the pen in his fingers that way? I want to do that

@Loli4lyf

i want my phone to have mini quantum computer in it

@AbuAbu-ix2hn

Qubic AI (Block chain and AI Integration ) Technology

@PrinceKumar-hh6yn

Content rich presentation

@stagnantwater1093

I'm leterally curious what OS they ar using💀

@EricPham-ui6bt

With quantum software like virtual then it can change tolerance ca n zoom in or base need

@user-eh9jo9ep5r

Could AI control by decades years around planet, impossibility to use technologies for deliver at private homes not allowed things(mean narcotics), even through water tubes.

@aryadevvs5628

Imagin they make a gaming quantum computer 🤯

@DonnaHarris-f7h

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@zohaibkhan-yf2zu

good explanation

@pomega

Can i play super mario😊