The Race to Harness Quantum Computing's Mind-Bending Power | The Future With Hannah Fry
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- Опубліковано 26 вер 2024
- With the promise of unimaginable computing power, a global race for quantum supremacy is raging. Who will be first to harness this new technological force, and what will they do with it?
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I see Hannah, i press like.
Same. Feel like I haven't seen her in a while and suddenly she is everywhere, and I am SO here for it!
clever and beautiful
wasn't expecting to see her here! Great host
I see Hannah I go Hub :D
@@valtermedeiros6295 ehem ehemm
What, nokia sponsored this video
The most surprising, overwhelming and uneblievable thing in this video is "presented by Nokia".
Sponsored by Nokia. I would like Nokia unbreakable quantum computer
Do you collaborate with Chinese companies?no… Go on🤨
That had me laughing 🤣 like yo😂
This is very misleading, post-quantum cryptography (ie quantum-safe) has been around for a while and even has new standards based around it. To say quantum computing breaks all encryption is just incredibly ignorant or misleading.
They already have quantum-defeating encryption algorithms that run on regular computers and networks. NIST just made some announcement on standards for them.
Not sure what is more overhyped: quantum computers, fusion reactors or Tesla FSD...
Depends on the echo chamber you fall victim to
Don’t forget neuromorphic computing.
Tesla FSD or should we call it FAD.
bro forgot about graphene
@@casey2230 graphene manufacturing in india
Cleaning water 💦 filters are tested not everything is hyped
Hannah Fry is such an excellent host.
Thank you for the video. However, a key detail was omitted: even though a quantum computer can consider all combinations at once (maybe), the combination you actually observe is randomly chosen. No one has yet proven a quantum computer to be equivalent to a Non-Deterministic Turing Machine.
Lots of "could" in this faith-based wish for quantum computing power being especially useful with all this massive parallelism. When will it become "can" and "does"?
It's similar to Fusion generators. It's part of the bleeding edge research that we know how it works for the most part, now we just need to scale it up.
Less than a hundred years ago we discovered and harnessed the power of the atom. It took thousands of years of science to get us to that point, and we're moving at an INSANE pace since then. Technology has progressed so fast in the last century comparitively that it's hard to remember that practical electrical light has only existed for less than 200 of the last 6,000 years of human civilization. We are moving at light speed technologically. We should be worried, honestly, that we're moving TOO quickly.
It's the same old story: "quantum computing is just 30 years away"™.
Among the tech fads, including blockchain and artificial intelligence, quantum computing holds the most promise. I'd bet everything on it.
None are fads, but AI and Blockchain are a lot more mature and have already proven a lot. AI in particular, over the last 30 years, has already improved so many lives and products. Only the latest AI developments have caught on (chatgpt) because they're more user-friendly but AI has been used in products long before The Terminator was released
Tech "fads" are only "fads" until the laymen who think they're "fads" lose interest and the serious people actually get back to work.
quantumly first
Nice one
At first I thought they were walking up to a really cool, imposing elevator. Should have named it Otis
IIRC I don't believe that there have been any published cases that have held up to peer review where quantum computers have outperformed traditional computing. It makes one wonder if hype over quantum computing is a modern form of a SDI/"star wars" program intended to divert Chinese state-directed resources toward wasteful projects.
Yes, I think that's true. I would go as far to say that some of these 'commercial' quantum computer companies are complete scammers. D-Wave comes to mind, but I think there are others too.
The 'hype' is about the imagined potential, rather than any current reality. It's very hard to imagine this happening anytime soon, especially not within a decade. This and agi are the hardest of problems, and I don't expect to see either any time soon.
As for your 'misdirection of resources' suggestion, that's an interesting, and plausible idea. For as long as there is the possibility that it might result in a useful computing machine, then we will feel obliged to do it, but there may indeed come a time, when we have satisfied ourselves, that neither we, nor anyone else, is going to be able to do this. At that point, the ruse may continue, for the reason you state. It may even have happened already.
wait, the way she explained quantum computing made it sound like just parallel processing, there's gotta be a fundamental difference right? My laptop has some 20 cores, and can do 20 threads at the same time, that doesn't make it a quantum computer.
It is parallel processing but on a much much greater scale. For example a 20 qubit quantum computer could perform 2^20 calculations at the same time. Currently it is impossible to build ones that can reliably perform with more than about a 100 qubits but imagine we get to unlock the ability to build more advanced quantum computers.
@@johnessien3578how big is the differenfe between 2^20 to current consumer grade GPU parallelisation ?
2²⁰ = 1048576. In 2024, the biggest processors have 96 cores. It’s not a 1:1 comparison, but every additional qbit doubles the parallelism so the numbers get very big very fast.
@@icecream6256currently there isn't a quantum computer that can perform calculations that can't be done with classical (large and powerful albeit) supercomputers. That said, current quantum computers will outperform your high end commercial GPUs by 10s of magnitude atleast, maybe even 100s. The technology is still in experimental and theoretical stage though, as there isn't a reliable way to deal with noise and interference caused by the quantum decoherence with the environment YET, amongst other issues. The vision though is that quantum computers could one day provide more powerful computing than anything our computers today can be capable of in a way that is more cost effective and scalable in the future.
Love this series. Mind boggling stuff. And Hannah is great.
I love Hannah's videos and thoroughly appreciate how brilliant and knowledgeable she is; however after watching I still do not understand the mechanisms by which quantum computers are so different from normal computers. E.g. binary computers have two states, quantum has two states plus another state, so that infers based 3 instead of base 2, why is that so insanely different?
Because of superposition, a quantum computer can explore many solutions at once. This is fundamentally different from classical computers, which must check each possibility one at a time
You are making the common mistake of thinking of the superposition as just another state like 1 or 0. That would, like you said, just be a base 3 computer, of which many have been built btw, they're just not a meaningful improvement on base 2 systems and require much more complex transistors so they are actually worse.
Superposition on the other hand is a fluid range of infinite states between 0 and 1.
It's not just the entire range of numbers between 0 and 1 though and the entire explanation is a bit complicated, but if you're interested in the technical definition then a a qubit is typically mathematically written as ∣ψ⟩=α∣0⟩+β∣1⟩ and must satisfy the the normalization condition of |α|^2+|β|^2 = 1 where α and β are complex numbers.
Amazing content ! Thanks for sharing this video
No one talks about how few applications there are for Quantum Computing (aside from breaking RSA) where there is proof of a speedup compared to classical computers
Wow, really amazing documentary
9:55 "China has invested $15 billion, more than any other country". But the IBM guy just said that they alone have invested $7 billion, so perhaps this only counts state funds?
Come talk to me when quantum computers are actually cheap enough and powerful enough to do things that regular computers can do. We aren't there yet. This is hype backed up with no evidence.
What 'Race'? They are still quite a few years away, and very hard to build if some high volume and reasonably priced actual useful day-to-day consumer use case is found that can't be done with 'regular' non-Quantum computers. Basically that's one of the two key issues (among many others), difficulty in manufacturing and use cases (that can't ALREADY be done today without them).
6:10 this is the internet Jen.
Hannah Fry is beastmode❤
coughBULLSH1T
What would AI be like with quantum computing?
spray started, there is a startup creating AI chip in quantum scale
The born of Skynet
quantum computing has always been 30 years away
No ,1 year away if everyone collaborate....
Quantum mechanics is like nuclear fusion, always a few years away
The ultimate carrot.
Oh, yeah ... quantum computing is pretty interesting too ....
😜
Quantum computing is next nuclear fusion reactors and next room temperature superconductors. You know what I mean.
The word 'NOKIA' with future technology is a interesting match!!!
This is exactly the title of something I’m wondering about.
Nokia sponsoring content about quantum computing? Love that.
The quality of this video is insanely great!
* _love the "Presented by Nokia" tag on the title frame_
both hot and really interesting. more like this!
So it's going to be quantum supremacy
my head hurts as I can't wrap my mind around this.
Props for that puzzle, very well explained in short ;)
Professor Hannah Fry is great!
A mathematician who writes with a Montblanc, now that is class.
Yes it's the real race coming ahead in future maybe another part of scientific revolution.
Back to cheque books and ledgers then?
I’m interested in the intersection between quantum computing and blockchain technology.
All it will take to undo quantum encryption is a quantum computer of equal sophistication
Thank you Bloomberg for superb reporting ❤🔥🔥🔥🙌
Sounds like the seeds of time travel are within reach.
Top tier narration.
The quatum mind, likes being chilled! A Cold spark* of imagination. Whatever tech, will they think up next
Love the cinematography in this! Really felt like I was stepping into a glimpse of the future. It felt heavy and realistic, and the quantum equipment were all straight out of the scifi world.
Too long too long to get to the point. Nothing new here.
Lol HSBC better make their banking app working without any convoluted pin and password reset scheme first. That's more of an attack surface than quantum cracking imho.
Dont let china get the schematics
Great video thanks
music isnt ominous at all.
my feed all the sudden "hannah fry"
Hannah is such a beautiful red head. I love her
back to offline and paper?
Water boils at a lower temperature in a vacuum and you could easily make a body powered or sunpowered steam generator without even losing water.
With the quantum internet can my aunt read every conspiracy theory at once?
Quantum cryptographic comms for interbank data security has been around for 20+ years. As for quantum computing, there is absolutely no question that this tech will develop to radically advance the capabilities of intelligence, however that intelligence will probably not be operating on biological technology.
Bs
This is an ad
Quantum security: I'm nowhere near as qualified as Hannah Fry ... maybe my limit would be making her a coffee. However I understand that some time ago scientists were considering the value of quantum bits in superposition as part of a security measure (for certain purposes) ... basically a particle in superposition will, when read, leave that state to a fixed alternative (spin value). So if the recipient of a secure transmission that includes a particle that is in superposition but is no longer in that state, then it may be evident that the transmission has been compromised. So Hannah: would you like your coffee black or white? There's an example: if it was made for delivery as black but arrives as white, then it's been compromised.
Love them or hate them, it is bcoz of China that the world is focussing so much on tech instead of petty issues.
A human like chatbot gets revealed, and then all the big players want to peacock their shiniest, newest toys "looka mee too"
qubits will take over ._,
❤❤❤❤❤❤❤❤❤❤❤
The reporter takes too much attention
I need quantum computer for gaming!
Besides hardware you need a software. And without software it's like a rock. Looking on evolution of PC software over decades, even if someone makes working useful qu-mputer it will take a lot to develop new algorhitms and software side.....
This is so useless! If Apple really want to build one we would get a smaller device like 5 inches and slim.
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The U.S. still leads in quantum computing, with Europe second
01001 in superposition must be 10110 then given this whenever measurement occurred at 01001 then there always be 10110 so how this will solve our slow software problem?
This is not how quantum computing works. There are no 1 or 0 every bit is both
@@alexandersalois7948 that is my question... tp show some letter it has to...
here an example :
The binary number 01000001 represents the decimal number 65. When interpreted using the ASCII encoding, this corresponds to the character 'A'.
So, if a computer is given 01000001 and it's interpreting it as ASCII, it will represent the letter A.
and the opposite of that
The binary number 10111110 represents the decimal number 190. In the extended ASCII table, this corresponds to the character ¾ (three-quarters).
So, if a computer is given 10111110 and interprets it as an extended ASCII value, it will represent the ¾ symbol.
@@alexandersalois7948that is my question, so how does it even can work?
here is example, she told us a qubit is 1 and 0 at the same time so... today software are something like this :
The binary number 10111110 represents the decimal number 190. In the extended ASCII table, this corresponds to the character ¾ (three-quarters).
So, if a computer is given 10111110 and interprets it as an extended ASCII value, it will represent the ¾ symbol.
and the opposite of that bit is :
The binary number 01000001 represents the decimal number 65. When interpreted using the ASCII encoding, this corresponds to the character 'A'.
So, if a computer is given 01000001 and it's interpreting it as ASCII, it will represent the letter A.