I programmed a real quantum computer for the first time
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- Опубліковано 31 тра 2024
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This video is sponsored by Qiskit. - Наука та технологія
If you spot the timestamp on my program results you will see I ran it a few weeks ago, but the result will apply to your day whenever this video finds it way to you 🐶
Qiskit have heaps of tutorials out on their own UA-cam channel if you want to get into writing programs like this (and much more) ua-cam.com/users/qiskit
@@Dkkm10 Your hands are soft Kevin🤓
I used my Thyme Machine to go forward in time to watch this video. Also, while I was there I got some more cooking herbs, as I had run out.
@@vk2ig ha, vk2ig made a joke
nice
I dont like the ancient yellow projector.
I could listen to Toby talk about literally anything for hours. Most soothing voice I've ever hea
Yo name is Tobay!
😢
Kuta quinte!✊️
@@leonranchero7088huh?
I remember takjing a course on this on coursera the first time it was available. Probably about 10 years ago. Back then there were no simulators or anything, we only had pseudocode. It's so cool to see how far quantum computers have come in such a short time.
@s s Classical computers took quite a while to become useful, so I'm still open-minded about this.
@s s they can break modern cybersecurity
@@biglexica7339 Not yet they can't lol
@@biglexica7339 they can also be used to further improve modern cybersecurity
@@deadpxn3517 obviously
Wow this is a great connection! I really enjoyed your video! Ive been watching your videos frequently since you covered Korean CSAT exam last year! Keep up the good work Tibees!
That was actually the first time I kind of get my head around Quantum computers programming. But I think we need more complicated examples solved on paper first before being coded so that we get the idea more deeply.
This was a very fascinating subject for you to cover. I had no idea there already were some basic quantum computers out there and that some have been made available for anyone to use. I really enjoyed this presentation. Thank you Toby! Absolutely love your channel!
Though I love all of your videos, it has been such a wonderful journey seeing the quality of your videos evolve over the years so much!
Nice video. Thank you, Tibees. I still don't understand how one goes about picking which gates to use! I hope you'll make more videos to help us understand how Quantum computing works and what kind of problems they can solve. You make things easier to understand.
Thank you Tibees for the background in Qiskit. I will look into it. Very informative. I always wanted to know more about quantum computing but this was the first explanation I could understand.
Your videos are fascinating and informing. Will look forward to your future videos, Dr. Tibees.
Really excellent explanation, this is the first time I’ve seen quantum logic functions explained, and you did a great job!
I love your presentation method. It actually makes sense. I see this for practical purposes such as the likelihood of a lightening strike and a resulting forest fire, and where it will strike.
This video reached me 1y later but is still strangely applicable with the New Year’s resolution suggestion. I’m a Computer Science major minoring in Physics and haven’t had much experience with quantum computing other than readings so this is all new to me. Thank you for sharing.
This video is fantastic. I really liked your explanation of quantum computing. More please!
Excellent! You do amazing work!
Still some of the best/most wholesome educational content on the platform! Thanks.
I like you are using this old projector!!! remind me so much memory!! merci :)
That’s a great video! Thanks Toby
Quite an interesting concept i have learned today. Thank you tibees. 😁
"Chance of a bone to a no-bone state does seem to be about 50-50. You know what else is of 50-50 chance? A qubit's superposition's chance to be measured as either 1 or 0" *Vsauce music starts*
Fantastic. Thank you for sharing this.
This is the best example of actual Q-computer use I've seen. Please program some more and present them?
Great video! Thank you so much!
Useful , great job!
great video, really enjoyed it
I don't really understand how quantum computers would differ from an analogue computer (or an analogue computer with randomization in the final step before results are returned)
If it makes no sense to you, it's because you're smart.. Think of it as a badge of honour 😉
I have watched probably over 5 hours on quantum computing material; I have looked up videos and websites, but you are the first one to explain the quantum logic gates. In fact this is the first time I have even heard them mentioned in a quantum computing video.
So I would just like to thank you for not just saying "A qubit can be a zero and a one at the SAME time. So yeah that's all you need to know". Okay, sorry for ranting, its just irritated me a lot, and thank you again for explaining it so well. (Your description of where it comes from too, has made a lot more sense then just about all the other videos, but I digress).
Thank you so much for this wonderful video; I appreciate it; and thank you so, so much for explaining everything so well. It must have been painful to figure all this out yourself, I can only imagine the amount of time you spent looking at webpages, forums and scholarly articles, "summaries" and studies.
(Looking back this sounds a lot more condescending then I planned it to, my point is thank you so much for what you have done.)
Toby is such a wonderful story teller! There is always a story in her videos. 😌
Aaaahahaha excellent comment. Kudos 😉
Hello Ma’am, I recently stumbled upon your channel, and it is quite interesting (coming from someone who hated math back in the days), I sincerely thank you for helping me reconsider my relationship with maths😃🤝
i was just reading about australia’s federal funding in november for quantum technology, but failed to find a fancy cool computer so i’m very grateful for your timely video!
Yeah that's the sad thing about finding this research.. Where does that money really go? 😒
This motivated me to get back to studying and tell my self that today is a bones day. Thank you! :)
Great video! I'm a CS teacher and this are fun learning vids.
Outstanding presentation!
Really amazing video 😊
Tibees, I will definitely check out Qiskit. Thanks! :-)
Never seen such a good explanation of qbits, this really drove the idea home for me!
Though I wonder what actual application there is to having the H gate, apart from randomizing and un-randomizing a value - this sure feels pretty unique, but I am not sure in what case this is actually beneficial. Having a hard time thinking of real-life scenarios where this could be a valuable asset
3:06 this format is so nostalgic and satisfying - i love it
Nice retro overhead projector.. We should get all the UA-cam educational channels to do an overhead projector retro episode. I'd love to see Minute Physics and Vihart overhead projector episodes..
I had a professor who liked to use as many colors as possible and he also wiped corrections with his thumb, and inevitably ended up with color all over his hands, face and clothes...
I see the professor with all the colors :D
How did she go from drawing partial light line to suddenly having a dark complete arrow or line appear? Classical projectors didn't do that. :) I guess she edited out the intermediate steps?
How nostalgic it is to for you to be using an overhead projector. I love it! Now off to add quantum computing to my to do list.
those projectors are great and remind me of my time at uni
This is the easiest video explaining qubits, particularly the spherical representation seems very simple.
Thanks! I’m going to try this out! Although, I still do not understand quantum computing well enough.
Amazing, really amazing. Thank you.
Awesome video !!!
Public QC has been available for years at this point if Im not mistaken. I think it means people will continue to grow colder toward one another. I guess that is better than being all fired up. I guess it also means your videos will be more and more valuable, Toby!
Best video explaining Quantum Computing ever!
It's funny how meme's morph... Used to be that "dog days" meant what now seems to be known as "no bones days"...
Lovely convolutions in all of this...
Very nice video Toby.
Few years back I used QISKIT and programmed only a few lines of python to simulate a dice, but then a quantum dice !
More random you cannot get a dice 😊
Says who?
Absolutely lovely!
First Quantum Computer video ever to show how it works. All the other science people just describe the features of a quantum computer . But showing a real calculation with variables would have been better. The best part of your video is that you give useful sources where the people build and run them. I can go and learn myself.
Side note I learned Basic programming language on a paper punch tape teletype machine connected to a computer 9 miles away. That was pretty high tech back then.
This is the best video explaining quantum computing.
I'm pretty sure this is the first time I've seen an overhead projector used on UA-cam, which blows my mind a little bit.
You could easily encourage a bones day with the introduction of snacks.
This new title is sooo much more informative
Thank you!
I'm glad it's a bones day. I have to get things done. IBM will now be my magic 8-ball of productivity.
Pl make further such videos on other gates and multiple qubits system. 👍👍
That is amazing! Great video as always!
I was reading up on quantum computing just yesterday, and this video popped into my feed. DIdn't know that IBM offered free quantum computing resources...
Thanks!
OMG, That's how we did our presentations in college back in the 1990s, with acetate slides. Haven't used Powerpoint then, only in 2007 for TCP.
Microsoft Windows has always had the ability to turn existing computers into Quantum computers.
Will my computer crash today or not crash today.
11:45 Funniest ever pronunciation of Bogotá ever :D
So if I just watch this video every day it's always a bones day? Who knew you had the cure for depression!
Thanks a lot.
Thanks for explaining quantum gates
Wonderful news for all! ☺️
Interesting what you do with your overhead projector.
My greetings
I am an inventor and I am passionate about mathematics and physics and this has helped me in many inventions and I am working on a quantum computer and I have reached a good stage in this subject ( and your videos are very interesting )
Imagine being sponsored by IBM. So cool!
Can you explain why it takes 2 minutes to run a single shot? Is that due to the cue or is there another process taking place here increasing time complexity?
Shout out to post-editing so we can see the green arrows!
Quantum comp and nuclear fusion tech are the two problem I want to see getting solved before I retire.
this is probably the most interesting sponsor i've even seen on youtube.
Based on what you submitted, if you ran 5 shots, would they all run at once or would the same qbit just reset and do all 5 runs?
What was the Piano piece at the end? Sounds a little bit like 'I get a kick outa you' Cole Porter version.
today was a no bones day yet here I am writing a python todo app
You are the real master of physics. 🤗🤗
5:13 But once you measure it pointing in one direction, every subsequent measurement will show it pointing in that same direction. So you have not actually determined that it was pointing to the side, only that it was pointing either up or down.
Have a break. Have a Qiskit
Yes! A Qiskit break!
i wonder if we will get a whole new class of numerical methods for quantum computing like we have for regular computing
I remember hearing a talk where they said habits could win in rock paper scissors like a ridiculous 80% of the time. Would it be possible to use build an unbeatable rock paper scissors script with this?
0:52 yea that can't be coincidence
I just realized this video is a real world Schrodingers Cat! In that case, which is a thought experiment, a quantum result (decay or no decay) had a macroscopic effect (the cat dies or does not die). Here, this is no longer a thought experiment and a quantum result (the measured 1 or 0) had a macroscopic effect which was that in your video you presented the “bones day” state rather than the “no bones day”!
The experiment is also much kinder to cats.
I get better results from my Magic 8 Ball, though. Not just binary.
Such a nice prsentaion! 😉
I'm going to watch this video every single day... Yes! Another bones day!
Awesome :)
I LOVE how shes using an overhead projector. Took me back to 5th grade lol (early 2010s)
Thanks, for an interesting (as always) and fresh introduction. Could you proceed to the topics beyond mere a random number generator?
As a side note, it is interesting to compare this with ternary, four-state, fuzzy and probabilistic logics, some are almost a century old. E.g. the H gate applied to 0 or 1 is a direct equivalent of fuzzification and reading the Qbit is of defuzzification.
Ternary logic can handle uncertainty, so does the superposition.
Four-state logic can also handle contradictions. Is it possible to express contradictory inputs in a quantum computer and pass these through the gates, i.e. do logical inference from? Three axis should be enough, or?
I invented a method to turn any ring into a logic. So binary, ternary, e.g, Which means this method can actually also generate complex logic, infinite logic (a logic with infinite truth values), uncountable logic (a logic with uncountably infinite logic values), 0 logic, 1 logic, probabilistic and fuzzy logic, with this method a concept of equivalence of logics also becomes obvious with that a measure and so 'sublogics' - a logic contained within another logic, so it turns out that probabilistic logic is a 'sublogic' of fuzzy logic, which is a 'sublogic' of uncountable logic, which is a sublogic of complex logic. Cool stuff.
I was going to write a paper on it a few years ago but got distracted due to covid and other stuff.
@@ichigo_nyanko I cannot say what you did, but creating a lattice from a ring is not a big deal. Interesting things and real problems begin with inference rules and all sorts of conditionals like μ(A|B) where μ is a set measure (or one of) accompanying the logic. These are all different and have different constraints in different logics, e.g. independence in the probabilistic logic etc.
@@dmitrykazakov2829 Lattice, what do you mean, where did you get lattice from? What I did generates a system of logic with truth values from a ring. For example the ring of integers modulo 2 maps to traditional binary logic, the ring of integers modulo n maps to a logic with n truthiness values. You can make any system of logic from some ring and vice versa. I know I didn't use very rigorous language in my comment and I was (and still am) quite tired when I wrote it so it probably makes no sense to you. I apologise for that, perhaps tomorrow when I wake up I will try to explain it properly - because it really is quite neat.
@@ichigo_nyanko Logical values or truth values form a lattice, e.g. Boolean lattice (Boolean algebra) in the standard logic. Other logic systems have a similar algebra with some properties lost or constrained. But a logical system in first place is inference rules like P→Q, P⊢Q (Modus ponens). Algebra (here represented by the implication operation →) is of less interest.
Is that your personal overhead projector? You have all of the toys, Tibees. If there’s one piece of tech that reminds me of school in the 80s/90s it’s the overhead projector. Or the huge CRT TV on a rolling stand. 😂
It was a great day when the substitute teacher would roll the huge TV into the classroom with a VHS tape of Bill Nye the Science Guy.
How about a classroom VCR? One from before the days of VHS. Or how about a reel-to-reel film projector or a slide carousel. We had film projectors and slides in elementary school in the 70s. I saw my first classroom VCR in junior high. I don't think I saw an overhead projector until college lecture halls. Maybe we had them earlier.
Noodle is screaming cuddles from every fiber 😊
Why doesn't the second 'H' gate reverse the initial state of the qubit? It seems like another 90 degree rotation in the same direction. Why does it always rotate back to the qubit's initial state?
She should make videos everyday.
I love bones day!
Great explanation. Ty. :) Do you think superposition is really a superstate... or... if we think of the sphere being half 0 and half 1 and either pole being a point, the rotation on two axes put those points on the boundary between the half that is 1 and the half that is 0... could it just be that there's some natural wobble across this boundary line and it's more about our measurement precision and timing that explains the approximate 50% 1 and 0 measurements?
Propably the qbit in superposition changes its state so rapidly and unpredictably so that it can be treated as if it were a superstate, Allthough I think it has a state all the time and not only when we measure it, but I honestly dont know
You can measure it along a different axis, and if you measure it along the axis fitting it’s current state, you will always get the same thing.
It isn’t like when it is in a superposition of 0 and 1, that that is fundamentally different, as if some states “are superpositions” and some aren’t. It is some are superposition *of 0 and 1* and 0 and 1 are just entirely 0 or entirely 1, but you can alternatively describe the 0 and 1 states as superpositions of some other states (e.g. + and - ).
If you measure the 0 state in the 0 1 basis, you always get 0, but if you measure it in the +,- basis, you get + half the time and - the other half of the time.
While, if you have it in the + state, and you measure it in the 0,1 state, you get 0 half the time and 1 half the time, but if you measure it in the +,- basis, you always get + .
And, the 0,1 basis and the +,- basis are both just two bases from a continuous family of possible bases (if you pick some basis at random, and prepare a bunch of states as the first state of that basis, and measure them in some other basis, the proportion of measurements that you get in one of the options or the other, depends, basically, on the angle between the two bases.)
@@carlphilip4393 this is called hidden variables, and it doesn’t really work (unless you assume superdeterminism, which basically means that the universe is set up such that any method we use of getting random numbers (e.g. observing cosmic rays, people reading tea leaves, anything) will conspire to make it so we can’t make the random choices in our experiments that would let us see the difference)
@@drdca8263 by "measure the 0 state" do you mean measure a 0 state control qubit?... Or measure a qubit in superposition and have it collapse to 0? ... Or perform another H gate operation, which rotates my proposed boundary position back to starting point (clearly 0 and no longer subject to measurement wobble that might give 0 or might give 1)? I don't think it matters whether you're talking about spin or charge, the action of the H gate is the same - rotating from a clear 0 or 1 to a hyperspace where there's a boundary between the two. Whatever you're measuring (spin/charge) would have the same grey areas boundary line with ~50% measurements one side and ~50% measurements the other. But we only have repeat experimentation to go on.. we can't even test the same qubit twice.
How did you get the green arrow to move on its own?
Wow nice video intro into Quantum computing 👌🏾👌🏾
By the way , I don't know if you will get to see my comment or not but either way let me ask, I recently saw an interview of Roger Penrose the mathemacian made and according to him Consciousness reside on the quantum level inside microtubules and that even Quantum computers may never have the capacity to emulate consciousness, I would like to have your opinion, if you have one?
Quite ironic that you explain how the most advanced method of computing works using an ohp :D
New sub ma’am
It's a no bones day for me. :(
Also the thumbnail next. To yours is titled “the ultimate run”.
you know that friend the parents didn want you hanging around