Pleaseeee!!!

>inb4 typical 'hurr durr quantum computing is overrated trust me I'm an expert' posts

Prove them wrong.

Normal computers have bits which can be only zero or one. Quantum computers use Qubits, have two completely separate probabilities that it will be zero or one. In groups of qubits, the probabilities can be manipulated individually

because a group of qubits is a mix of all possible states rather than just one, you can perform 2^n calculations in the time it would take to perfom 1

However, quantum computers have two main issues:
>1: the algorithms are insanely complex and unintuitive, render the most basic laws of computer science irrelevant and require at minimum a working knowledge of linear algebra and complex mathematics just to figure out how to add two numbers
>2: qubits have an insane rate of corruption and may require a completely new state of matter that we only discovered in the past week just to slow it down to the level of a classical chinese knockoff hard drive

>qubits

How is this physically achieved? Or is it some kind of philosophical bullshit.

>qubits
google.co.uk/search?q=qubits

It's very real, and not easy to explain, since it requires an explanation of quantum physics

Most particles the size of an atom or smaller are spinning with a fixed angular momentum. When you measure a regular spinning object, it can be spinning in any direction, but if you measure a spinning particle the direction of it's spin will always be clockwise or counterclockwise around the axis of measurement. Which one it is is random, but measurably so, and by bumping particles into each other we can fuck with the chances, and make them go to 0% or 100%.

art of the difficulty is creating complete certainty for these particles while also having them be completely certain of the right answer

rollan

where's 33?

Sup Forums doesn't have dubs, it skips over them

roll

Holy shit. This stuff is complicated. Now, who's my wifu?

Nice on senpai.

Roll

Fucking roll

bad selection but beggars cant be choosers..

>2^n calculations in the time it would take to perfom 1
yea how bout no

What does a quantum cpu look like? I bet they are insanely small. Like, 1 atom small?

Quantum computing is order out of chaos.

youtube.com/watch?v=Eak_ogYMprk

There you go bud

FYI, "observed" in quantum mechanics is physics speak for "being measured".

That is not hyperbole

not really, 1 atom would only be a single qubit. Right now they're about the same size as regular cpus, but much weaker, and require a a metric fuckton of liquid helium cooling. quantum processors are even more temperature sensitive than regular ones since even a bit of heat can upset the quantum state.

Right now technology all progress is being devoted to overcoming corruptions issues, because until those are solved we won't even know if quantum computers will be usable.

Possibly one of the biggest advancements was just announced in the past week with the creation of a state of matter in in which the spins of a group of atoms fluctuate periodically and resist alteration by outside conditions.

Unfortunately the guy who first hypothesized this state of matter in 2012 called them "time crystals" because of their ordered structure over time but not space so now idiots are going to misuse the idea to sell shiny rocks to gullible white women who smoke too much weed

If audio is more your thing:
nodogmapodcast.bryanhogan.net/68-michael-biercuk-quantum-computing/

why not

roll

rolling

worst meme threads in a while

disgusting

kys

rolling

Rolling.

> you can perform 2^n calculations in the time it would take to perfom 1
Not in general. Its really only a few things where this works or half works, and thats so far the case even in theory, never mind actual computers.

Quantums have many limitations and specific features only - we will basically be using them as co processors.

en.m.wikipedia.org/wiki/BQP

Gimme 01

000 plsssss

>linear
One does not simply control KEK YOU FOOL

Pure derail but rolling

Waifus > quantum computers

"if you think you understand quantum mechanics, you don't understand quantum mechanics"

unless you plan on beating Einstein just stop now

that was the most cringeworthy shit I've ever seen, he's visibly nervous, the lady in the back is visibly pleased her 10 minute explanation to him worked and all he said was 'its more complicated than 1 and 0'

this is the shit liberals are spooning over? holy fuck what a bunch of retards

It's not a meme. They told Alan Turing that 'computers' were a meme before he cracked Enigma too.

roll

because they are stoopid

qt waifu pls senpai

Rolling

Wtf there's no 22

I want cute titty waifu

rolling

fuck it, rollin

/sci/ would probably give you a better explanation

Traditional computers use an electron and it goes through a nor or boolean logic type thing to determine if it is 1 or 0, except now that transistors are getting so small the bridges to stop an electron can't adequately seal an electron off it can quantum tunnel past that if the chip nm die is too small.
Quantum computers rather than giving a 1 or 0 value run the electron through filters to try and figure out if it is a 1 or 0 since it can be both. My understanding is determining from this filter if it is a 1 or a 0 gives multiple equations to determine it. This is the part that gets a bit sketchy to my understanding, that it's these equations give multiple answers where a regular cpu would have to run them consecutively one at a time the quantum computer generated them trying to come up with the right number.

rawl

Looks like I win no matter what.

Rolline

Everything except 53 plz

sure

Lets do this

What the point if i have to pick one. Reroll.

rollan

Come on maiden in black

Felicia pls

roll

Roll

xd

Roll

Ronz

Cute senran pls

r0ll0

nice thread

Give me the one

Example
"The answer is Yes"
Then you 10 seconds later, I wonder if it is raining in New Yor...oh."

A) Use google
B) Quantum computing exists mainly for cryptography, making it nearly impossible to decrypt data since qbits contain way more data to encrypt than current bits
C) unless you're the NSA or Microsoft quantum computing is practically useless. There is no other use beyond cryptography anyone has come up of using cryptography for.

Roll

Quantum computers basically process data in a different way. Instead of seeing all data as either A or B, they see it AB, A, B, and BA, or any other combination. They're not going to be for consumers, and they will have no value to you. In fact, they'll probably be slower than a 10 year old laptop since they're not meant to run anything but an extremely small operating system which will most likely be written in assembly. Quantum doesn't mean faster, it doesn't mean magical. It's simply a description of the type of computations it'll be able to do. Fuck off back to Sup Forums or whatever now.

youtube.com/watch?v=sl5Xb5XoGTU

It's going to break all our cryptography algorithms. Pray it doesn't happen too soon!

roll
your trips might be the answer for your prayer son

tiddies

rolling

Roll

Roll

>Quantum computers work with combinations of 2 states
>Any other combination
>Permutations of 2 states.
>2 state permutation = 4 different states
Sorry mate, but that's utter horse crap.

It breaks discrete logarithm and factoring primes (both are the same fundamental problem). It also MIGHT reduce block ciphers bit-strengths by half (AES256 becomes as strong as AES128) however this isn't known for sure.
Post-quantum algorithms like lattice based public key encryption are thought be resistant to quantum attacks because no one can currently think of an algorithm that will give a majority probability of the correct answer when run by a quantum computer trying to break them. There is no definite proof of security yet, but most think there are many algorithms that cannot be solved by quantum computers.

Quantum encryption is a very different application than quantum computing. Also I dislike the term "quantum encryption" since its more about guaranteeing physical integrity of information. Its based on the fact that if you observe quantum information, then that observation will change the information. Therefore if you design the information to only be readable once, then alice and bob can tell if eve intercepted the information, because she won't be able to replicate the initial state of the particles that alice sent to bob.

basically the gist is as follows
instead of binary 1's and 0's, a quantum computer would have ternary 1's, 0's, and a superimposed 1-0 hybrid

No. Please stop embarrassing yourself. Why is it that when it comes to quantum computers everyone suddenly has a degree in physics and claims to totally understand them, then totally fails to understand the concept?
This is what we get for making science accessible to the unwashed masses.

But how can alice send particles to bob? Since when do people have hardware to teleport particles?

where in that post did you infer that the poster claims to totally understand quantum computers?
I think maybe the problem is with your expectations and not with the accessibility of science.

also how did that poster fail to understand the concept? its clear, superposition and other quantum uncertainties can allow for more complex data in the same number of bits

There is no teleportation. Its just careful measurement of quantum state based upon entangled pairs pre-shared between alice and bob. Alice can add state to the particle without disentaglement because she does not measure it. Any measurement of the entangled particle by eve will disentangle it. Bob then measures it and compares it with his own supposedly entangled particle and ensures that no other measurement has occurred.

kek I don't get it

it's just another way to turn a string of 0's and 1's into another string of 0's and 1's

Its not ternary. Its probabilistic. There is no single 1-0 hybrid. You could just as easily have an .8*1 probability making it 80% likely to get 1 and 20% likely to get 0 as a 50%/50% probability. There's an infinite number of superpositions.

I've been following this for at least half a decade and I've yet to see anyone mention a few failed attempts at a quantum device that I've observed while others have proceeded.
There are a lot of independent attempts at this and mistaking who is making what chip act in a specific way is a mistake. It's all misleading enough that there could be multiple approaches.

MinutePhysics, a nice video explaining that : youtube.com/watch?v=DxQK1WDYI_k