Scaling up to a 1-million qubit quantum computer is already extremely hard from an engineering point of view, as this video nicely illustrates. However, getting those 1 million qubits entangled, and more importantly: keeping them entangled long enough to perform meaningful calculations, that is a challenge of an entirely different magnitude. Sadly, most informational videos on quantum-computing fail to properly address this enormous elephant in the quantum room.
@menno Knol How long do you think it will take for a practical Quantum Computer to be built ? Is 'never' a real option, because of the entanglement issues?
@@ericvosselmans5657 I won't claim to be an expert on the matter in any way. That is one of the reasons I would like to see more videos addressing the decoherence problem for large scale quantum computers. But based on what I think I understand about the subject, I would reckon it will take longer then most of the popular media would like us to believe. Quite a bit longer. A bit like with practical fusion energy.
The enormous elephant is the unescapable truth that quantum theory is but a model of reality. That we can all agree. My point being is that these unusual behaviours such as superposition are not laws of nature but just peculiarities of the mathematical model on which the theory is based. Need I say more?
This video explains such a complex topic in so simple way. This is by far the best quantum computer video i've ever seen. Thank you Anastasiia for your work.
I’m not gonna lie.. trying to comprehend how these electrons spins are controlled and used for computing and can maintain multiple different states at one time.. makes my brain kinda melt.. but it is absolutely fascinating stuff to see that people are making it work. To imagine they can get this scaled down into home or handheld devices in the next.. idk, 50 years? Is just amazing to contemplate what they will be able to achieve
Hi Anastasia! I just wanted to let you know that this is the most informative and well put together video that I have seen on Quantum Computing. Simply fascinating and refreshing. Also your voice and accent are absolutely amazing. Such a unique blend of culture emanating in a harmonious and pleasing tone. I could listen to you talk ALL DAY. Thank you for inspiring me! Also thank you to Dr. Stefano Pellerano for breaking this cmplicated concept down into a digestible and comprehendible format. Bless you.
Always fascinating info here.. thanks for what you do to expose us all to this incredible tech! And great to see you being to get amazing guests to help explain some of these things
Thanks for this interesting interview. The algorithms of quantum computers are not easy to imagine due to we are not used to it. The power of this kind of computer is the capability to entangle qubits (to link all their qubits capacity to each other by linear relations) and to keep it away from the classical projection of our univer until quantum computing is completed. When one of the qubit is read, then it determines the state of all the other then we cannot add any other operation to the compute but we have to read all the final state that gave us the solution of the complex operations applied to the qbits system. Each quantum operation can be seen as causality between qubits and it is done into a kind of isolate univer from us that is why we say that it is zero and one at the same time but in reality the value of the isolate qbit are not defined at all for our univer until we touch (read) the qbits ;).
Your voice is so amazing I just can't stand it. If all my teachers in high school had your voice I would have listened to every single thing they said and aced the classes lmao
Yet again, another informative and beautifully produced introduction to a very complex and very interesting topic even for laymen like myself. Your thorough engaging manner in explaining these issues, and in this case bringing us another equally interesting and talented speaker who really knows this subject and can articulate it so well makes it all the more worthwhile. Looking forward to your next. Cheers.
@@trusterzero6399Busted! She is simp worthy in the extreme, in my opinion, though having an interest in computer techs for as long as I can remember...which is long enough to remember when computers were room sized...I've always tried to stay current on the tech and have watched a lot of boring (and not nearly as visually appealing) experts try to explain what is new, and what it means, but few of them put it all together as well. Her grammar and syntax are impeccable, her use of language, including her accent which reminds me of of my Italian family, makes listening a joy. My niceness is exceeded only by my verbosity. Cheers.
Wonderfully educational and entertaining as always! This channel really fills a niche for people who want to learn about advanced topics in a detailed yet approachable format. Some requests: 1) please switch back to the original (or some other gentle) video transitions: the new effect starting from around January clashes with the serious theme and tone of your content. The glitchy or flashing video transition effect is very visually jarring; it breaks the flow of one's concentration :'( 2) please leave the informative visuals like graphs/diagrams/tables up for longer, instead of the looping promotional animations :)
Thanks for the really well made video. This was a random hit on yt for me and it was great. Guess I found another channel to add to my watchlist. Also, as a man trying to get in shape for some upcoming metal concerts, I am super jeallous of your hair :-D
Super interesting Anastasi! I work on the field (on the superconducting side and algorithms) but I find the semiconductor approach to be very interesting. Keep up the good work!
I'm impressed! A million qubits! :O 120 qubits was too much for me until I saw this video. Thank you! I really love interviews, keep doing them Miss Engineer :D
Optical vortices can create a void at the center. I don't know if they can create a vacuum, but it may be that we can use optical vortices as a means to produce localized vacuums around these qubit particles to meet cooling needs without all the equipment. Great video, thanks for sharing!
Since the nineties of the last century... And the algorithms, the treatment system, has evolved into something that is difficult to understand. How?! This was done in the time of the earth! Today, life, technology, artificial intelligence... and the human being in this, and the information spread, but! This needs a school in society and a difference in what is now in the whole world - thank you..!
A complex matter superb presented. Concise and contemporary. Quantum dots are a fascinating development. Quantum computing will likely improve itself and then provide solutions for a room temperature quantum computer.
I think developing quantum computing is like the chicken/egg paradox in reverse. Quantum mechanics is about the probability of finding the quantum twin of an electron in any one place. If you can do that with enough accuracy, you can harness quantum mechanics to perform quantum computations. But to do that you would need a quantum computer.
Thank you for CAPTIONing! It's easy ( just turn it on) and autocart dies about 75-85% correct FOR FREE! I really appreciate your videos and being able to see( the cart) and hear you ! Wado Mvto
The real challenge is implementing the entanglement gates (or two-qubit gates). Since science journalists only want a single number, they latch onto the number of qubits while ignoring everything else. I do not think cryptography will be broken in the next thirty years.
@@joannewilson6577 lol. Way to be the optimist. 70 years. Hahahaha. But with quantum tech in your phone, it will be both there and not there at the same time.
@@MrWitchblade So far, no one has scientifically proved that QC is impossible. So, the hunt for a QC is a meaningful hunt. Some simple ones already have been build. It is not yet certain that the promise of large scale quantum computing will even be realized; but many are hopeful that it will happen eventually. A practical quantum computee might take 15 years or 50 years,many country are in the process of designing a 100 qubit machine. Technological revolutions of this magnitude have many odds to go over. Let us not forget how many years it took for the traditional computer to come up.
@@MrWitchblade There may be any number of technological roadblocks ahead that simply haven't been accounted for. Taken together, these considerations would place us to somewhere around 50 years at the minimum. Of course, the caveat is that the possibility of achieving scalable universal quantum computing still needs to be proven. In that case, we might make an analogous prediction borrowed from nuclear fusion reactor research; scalable universal quantum computing is ten years away and always will be…. The bottom line is that we really are still at the beginning of a promising new technology with no clear or obvious path to achieving both a robust and scalable architecture.
@@joannewilson6577 temperature is the big problem currently. The ones which are sold are all minus 256 °c Not practical for everyday home use. It'll get there.
We need topological (meaning in a in-unfoldable loop) qubit system on a chip (I'll name it TOQUSOC). This way, entanglement can be permanently preserved.
Great Video, TYVM. You never fail to leave me excited for how this tech is going. Exciting Times :) cannot wait to see the fruits of this technology when mature
learning a lot, and enjoying your humour. a tiny wish regarding names. the people's names are okay, but the companies are sometimes very shortly visible.
I don't understand most of what you teach us, but I'm really digging the steampunk vibe of these quantum computers. Feels like time travel is on its way.
@@hateme5010 Among physicists, there is no real doubt that time does really, truly exist. It's a measurable, observable phenomenon. Physicists are just divided a bit on what causes this existence, and what it means to say that it exists.
@@hateme5010 One common misconception spread by an unclear discussion of the nature of relativity and other physics related to time is that time does not, in fact, exist at all. This comes across in a number of areas that are commonly classified as pseudoscience or even mysticism.
@@hateme5010 Time is actually an integral part of the universe. The very linear concept of time is tied into the concept of the Second Law of Thermodynamics, which is seen by many physicists as one of the most important laws in all of physics! Without time as a real property of the universe, the Second Law becomes meaningless.
May you can do a video on how to reuse older chip-sets for new roles. I spend a lot of time showing people how you can take older IT systems and give them new roles in today world. Just a thought! We today can get our hands on pretty high end hardware that is being sold on Ebay like sites and people want to learn to do new things with old gear... Thinking out side the box! Keep having fun for I know you are having fun (I think)!
Small remark, for quantum computing you need Tangled qubits, not just separate millions... That's more complex to initiate, to keep them useful and stabile in tangled state. Just million doesn't help and doesn't solve anything. P.s. possibly that's physically not possible Heisenberg uncertainty. QC is over hyped
Room temperature superconductors seem to be the key to unlocking many different problems in technology today. Superconducting magnets for fusion reactors and radiation shields in space to quantum computing and desalination and so much more.
Wonder if the hardware could be simplified by operating in space, always in sun shadow, with far less power needed to maintain mK temperatures. This would be a relatively light payload & low cost to orbit, although cosmic rays would be a troubling background, perhaps suppressed with an anti coincidence shield. The main question to me is what problems can you solve that traditional architectures can not. There are clear opportunities to ensure a message has not been read, but what other applications are interesting or useful? Super video, thanks for sharing!
As it requires power, could a solar panel of some type be efficient enough to provide the necessary shade? I could see a comms issue due to maintaining an orbit which keeps the satellite on the dark side of the Earth. I'm no expert on solar panels, engineering, or the climates of space... but it seems like a panel with some type of solar shield/insulation could allow these systems to operate around the globe without need for avoiding the sun.
@@mattallred the mid infra red camera on the James Webb telescope operates at 7 Kelvin & is kept that cold by a cryocooler powered by solar I believe. Quantum computers need milli Kelvin, about 1000 times lower, but in principle your idea can probably be made to work.
Thank you. Me too, novice in this subject but like to learn more. Hope you could share in the next video on how silicon is able to achieve qbits? Is it by quantum spin? Also how were these chips fabricated? By lithography too?
Fascinating. do they have an actual working prototype of this Silicon quantum dot chip? I would imagine setting these bits with an RF transmission line could make cross talk a big problem no? I imagine if they are setting the Qbit state with an RF pulse then they also read the bit by measuring the RF Any specifications? How are the qbits coupled or entangled?
Anastasi Just looking at all the RF Microwave plumbing its like Art Very Expensive Art but can I say Wonderful 👏 I have my own Microwave Test Equipment & that is massively expensive, I wouldn't guess how much that Copper Gold Microwave Quantum Computer costs, it's Government Research & very high end companies that could ever provide the funding, even Cryogenics to cool that is costly, I feel I am as curious as a Cat 🐈 in Electronics & Microwaves, For your next maybe we could talk about actual programming of FPGAs ? Devices used etc, Philip
At one point as you were discussing the potential for quantum computing, you were comparing the number of discrete states that the machine could achieve to the number of atoms or particles in our observable light cone. But, and please correct me if I am wrong here, we can only output by sampling over and over again from that large pool of states to look for the most dominant states. That is the processor could be in a super position across 10^100 states, but your sampling output might only sample 10^10 of them. So, from a informatics perspective, the limitation of quantum computers is not a function of the size of the PROBLEM SPACE they can compute IN, but rather of the size of the SOLUTION SPACE that they can output TO.
A main feature of infamous quantum computing algorithms is to find and highlight the one solution in a gigantic problem space that's otherwise supposed to be impossible to search within the limited size of the universe. So outputting only the strongest value subset is all they need.
I’m wondering how a megabit QC will help tell us if we’re alone in the universe? (A simple bit of math seems instructive. If intelligent life like ours requires, say, FIVE events with a 1/10^4 probability - e.g. right star, right planet, right distance, needing gas giants in the outer system, needing a large moon for tidal pools, etc - then the odds of intelligent life are 1/10^20. There are only about 10^11 stars in the galaxy, so the odds are good that we’re alone.)
That was very informative. I have been playing with programming quantum computers. I have studied quantum mechanics and quantum field theory for 45 years. I have also studied quantum string theory by Michiko Kaku.
Great editing and solid content, it very far in the future for sure, what about the current CPU's a little closer to the ones people might use normally?
Anastasi! Wonderful technical video! Excellent content! OBTW, has anyone mentioned today that you are incredibly cute and adorable? (Yes, you are very intellectually talented as well.) Cheers from Texas! 🤠
Imho, the problem with Quantum computing is fundamental physics, making it's relevant in very limited field of use. It's best use in solving quantum level problems, and it's going to be of limited use in classical world we operate.
I have a video idea for you. You can make a video for making your own chips. You can make a series of videos for people who want to build cpu architecture from nothing to the finished product.
Important message is no.3 below, 1. A fridge in 4 Kelvin is also called a fridge?🤔 Putting me inside of it then I immediately become a stone.😆😅 2. By the time he can create a hand-held quantum computer in our hand, Dr. Stefano may be about to time to retire, I guess.😅 So many challenges ahead, but he must be enjoying it. 3. This leads me thinking of an article of a journal I read almost… no, exactly 20 years ago when I was a university student. A female Danish physicist called Lene Hau in Harvard experimented light alighted into sodium atom cloud, by which made the light slowed down to 17 meters per second, and completely stopped afterwards. I also went to Harvard and met a graduate discussing a bit, just a bit, about it around 5 years ago. This led me to think about how a computer can progress in the future. Although these two discoveries look unrelated, but I think these two discoveries can integrate together to develop an commercial advanced technology or computer. I just rechecked this physicist online and Wikipedia, she also had some articles about quantum computing and qubit. I’m sure Dr. Stefano definitely know this physicist as well, maybe you can discuss something about that with him. I think something high-tech similar with the movie inside Star Trek will become true in the future. My work is unrelated to these high-tech for now, otherwise, I do like to research these fields as well.
Can you imagine cloud Q-bit processing on a 5G network guided by Real A.I.. You asked for ideas, look into nuclear diamond battery or N.D.B. Also interesting would be a segment on 5G and new technologies that will be possible thanks to it's latency.
Well we're decades away from real AI. We haven't even scratched the surface on that one. Although media hype with claims of AI tech would make you think otherwise.
Very nicely done, a uniquely pleasant way of presenting complex topics in easily digestible form. Although entangled electron spin strategies are the common current focus, it is the entangled photonic approach which may eventually become the prolific arena of development. There are many (myself included) who see optical computing as the eventual manifestation of the next great paradigm in computation, including optical neural networks, etc. Perhaps a program on this would be interesting?
If most operations are yes or no, what is the practical application of a system that can be both simultaneously? (Perhaps I need to understand computing at a core level?)
Quantum computers with a million+ qbits is no joke. It could potentially, or arguably inevitably be the most dangerous invention ever made. It will certainly change the world into something we have never seen before for better or worse.
It is not only about where WE(as US) are in this quantum computer hardware research, but also, at what stage are other nations(if they are any).....like for example Canada and China/Baidu Co. or OQCT and Huawei and others.....I would like to hear/see some comparisons of at what stage everybody else is and if there are other nations working on a future of computing (like Singapore atc.)
@@AnastasiInTech or find complex solution for modern problems like asthma, and pneumonia. People thinking deep going for impossible like time machine when they hear quantum.
I think quantum computing for commercial application will only be achieved thru something similar but not exactly quantum dots.perhaps we shall need to research new material and how different materials could achieve a qubit in different ways .we could simulate -1 ,0,1 state where 0 is similar to a stationary wave by use of different ideas like reflection or spin of atoms with in a new material not necessarily silicone.but that is just a thought?????.
@@Chipchap-xu6pkQuantum computation can simultaneously evaluate the set of alternatives that cause a combinatorial explosion and select an alternative with relatively high likelihood.
Let me know what you think! :)
Just had a friend tell me he’s working on qubits. I’m excited to watch!
we think you are as beautiful as your input from these amazing videos :D
I love your videos, they are very well made and it is refreshing to see a woman in tech. Keep it up!
Anastasi can you please do a video about the new Tenstorrent Risc V cpus.
Very interesting video by the way!
i like new style of your videos !
Scaling up to a 1-million qubit quantum computer is already extremely hard from an engineering point of view, as this video nicely illustrates. However, getting those 1 million qubits entangled, and more importantly: keeping them entangled long enough to perform meaningful calculations, that is a challenge of an entirely different magnitude. Sadly, most informational videos on quantum-computing fail to properly address this enormous elephant in the quantum room.
Aka Schroedinger's Elephant.
@menno Knol How long do you think it will take for a practical Quantum Computer to be built ? Is 'never' a real option, because of the entanglement issues?
If man was mean to quantum compute, it would have happened already! Everything that can be invented has been invented... (sarcasm)
@@ericvosselmans5657 I won't claim to be an expert on the matter in any way. That is one of the reasons I would like to see more videos addressing the decoherence problem for large scale quantum computers. But based on what I think I understand about the subject, I would reckon it will take longer then most of the popular media would like us to believe. Quite a bit longer. A bit like with practical fusion energy.
The enormous elephant is the unescapable truth that quantum theory is but a model of reality. That we can all agree. My point being is that these unusual behaviours such as superposition are not laws of nature but just peculiarities of the mathematical model on which the theory is based. Need I say more?
I could listen to you talk forever. Quality content delivered by the sweetest voice and accent in the history of ever
Super exciting as always to hear about the cutting edge. Very well done on this video Anastasi.
This video explains such a complex topic in so simple way. This is by far the best quantum computer video i've ever seen. Thank you Anastasiia for your work.
I’m not gonna lie.. trying to comprehend how these electrons spins are controlled and used for computing and can maintain multiple different states at one time.. makes my brain kinda melt.. but it is absolutely fascinating stuff to see that people are making it work. To imagine they can get this scaled down into home or handheld devices in the next.. idk, 50 years? Is just amazing to contemplate what they will be able to achieve
Hi Anastasia! I just wanted to let you know that this is the most informative and well put together video that I have seen on Quantum Computing. Simply fascinating and refreshing. Also your voice and accent are absolutely amazing. Such a unique blend of culture emanating in a harmonious and pleasing tone. I could listen to you talk ALL DAY. Thank you for inspiring me! Also thank you to Dr. Stefano Pellerano for breaking this cmplicated concept down into a digestible and comprehendible format. Bless you.
Yeah...she is computer engineer and yet at the same time very feminine individual! You do not see that often!
Always fascinating info here.. thanks for what you do to expose us all to this incredible tech! And great to see you being to get amazing guests to help explain some of these things
Thanks for this interesting interview. The algorithms of quantum computers are not easy to imagine due to we are not used to it. The power of this kind of computer is the capability to entangle qubits (to link all their qubits capacity to each other by linear relations) and to keep it away from the classical projection of our univer until quantum computing is completed. When one of the qubit is read, then it determines the state of all the other then we cannot add any other operation to the compute but we have to read all the final state that gave us the solution of the complex operations applied to the qbits system. Each quantum operation can be seen as causality between qubits and it is done into a kind of isolate univer from us that is why we say that it is zero and one at the same time but in reality the value of the isolate qbit are not defined at all for our univer until we touch (read) the qbits ;).
Thanks!
Thank you!
Your voice is so amazing I just can't stand it. If all my teachers in high school had your voice I would have listened to every single thing they said and aced the classes lmao
Yet again, another informative and beautifully produced introduction to a very complex and very interesting topic even for laymen like myself. Your thorough engaging manner in explaining these issues, and in this case bringing us another equally interesting and talented speaker who really knows this subject and can articulate it so well makes it all the more worthwhile. Looking forward to your next. Cheers.
HIS subject?
@@spacetimeworm typo...should have read "this"...definitely not 'his'. Thanks for catching that. Cheers.
Are you just his nice or are ya simpin brah?
@@trusterzero6399Busted! She is simp worthy in the extreme, in my opinion, though having an interest in computer techs for as long as I can remember...which is long enough to remember when computers were room sized...I've always tried to stay current on the tech and have watched a lot of boring (and not nearly as visually appealing) experts try to explain what is new, and what it means, but few of them put it all together as well. Her grammar and syntax are impeccable, her use of language, including her accent which reminds me of of my Italian family, makes listening a joy. My niceness is exceeded only by my verbosity. Cheers.
Shes not going to date you. No woman is ever worth simping over. You sub human.
You're always a pleasure to watch and listen to.
Keep up the great work :)
I love seeing your enthusiasm and mastery of the subject matter
Wonderfully educational and entertaining as always! This channel really fills a niche for people who want to learn about advanced topics in a detailed yet approachable format.
Some requests:
1) please switch back to the original (or some other gentle) video transitions: the new effect starting from around January clashes with the serious theme and tone of your content. The glitchy or flashing video transition effect is very visually jarring; it breaks the flow of one's concentration :'(
2) please leave the informative visuals like graphs/diagrams/tables up for longer, instead of the looping promotional animations :)
Awww you have a cute cat, I want to cuddle it :( Oh and good video as always! Keep the good work up!
Thanks for the really well made video. This was a random hit on yt for me and it was great. Guess I found another channel to add to my watchlist. Also, as a man trying to get in shape for some upcoming metal concerts, I am super jeallous of your hair :-D
🤣
Super interesting Anastasi! I work on the field (on the superconducting side and algorithms) but I find the semiconductor approach to be very interesting.
Keep up the good work!
Dr. Pellerano lives in my city! It's amazing to think someone as smart as him lives near me.
I enjoy your videos.
I always learn something interesting on your channel.
Keep up the good work!
Thank you for presenting this video. It is good to see how engineering will be used in 10, 20, 30 years into the future. Thank you.
I'm impressed! A million qubits! :O 120 qubits was too much for me until I saw this video. Thank you! I really love interviews, keep doing them Miss Engineer :D
Great production very pro, 10 years from now will be interesting to see if ai has solved any of this,!!
You have a better chance if you live another 50 years...;)
I love how you edit your video, nice 🙂👍
Great content. Thank you Anastasi!
another briliiant video Thanks for the upload!!!!!! :)
Very good info. Love your graphics.
With such a unique voice, I think you should consider hiring it out for voice overs in animations (in your spare time).
Thank you for asking the right questions to the right people, keep up the great work, Kitty is super cute
Thank you for these videos. This information is very useful.
Your work is fascinating.
Optical vortices can create a void at the center. I don't know if they can create a vacuum, but it may be that we can use optical vortices as a means to produce localized vacuums around these qubit particles to meet cooling needs without all the equipment.
Great video, thanks for sharing!
Since the nineties of the last century... And the algorithms, the treatment system, has evolved into something that is difficult to understand. How?! This was done in the time of the earth! Today, life, technology, artificial intelligence... and the human being in this, and the information spread, but! This needs a school in society and a difference in what is now in the whole world - thank you..!
A complex matter superb presented. Concise and contemporary. Quantum dots are a fascinating development. Quantum computing will likely improve itself and then provide solutions for a room temperature quantum computer.
I think developing quantum computing is like the chicken/egg paradox in reverse. Quantum mechanics is about the probability of finding the quantum twin of an electron in any one place. If you can do that with enough accuracy, you can harness quantum mechanics to perform quantum computations. But to do that you would need a quantum computer.
Thank you for your passion bring the knowlege about quantum technology status update
Thank you for CAPTIONing! It's easy ( just turn it on) and autocart dies about 75-85% correct FOR FREE! I really appreciate your videos and being able to see( the cart) and hear you ! Wado Mvto
The real challenge is implementing the entanglement gates (or two-qubit gates). Since science journalists only want a single number, they latch onto the number of qubits while ignoring everything else. I do not think cryptography will be broken in the next thirty years.
Another fantastic video. Thanks A!
Lovely voice and narration. Perfect example for.future AI to impersonate.
Great explanation!
Nicely put.
Quantum computing in the home would be very nice.
In 100 years it will be awesome for sure but we will all be dead...;)
@@joannewilson6577 lol.
Way to be the optimist.
70 years. Hahahaha.
But with quantum tech in your phone, it will be both there and not there at the same time.
@@MrWitchblade So far, no one has scientifically proved that QC is impossible. So, the hunt for a QC is a meaningful hunt.
Some simple ones already have been build.
It is not yet certain that the promise of large scale quantum computing will even be realized; but many are hopeful that it will happen eventually.
A practical quantum computee might take 15 years or 50 years,many country are in the process of designing a 100 qubit machine.
Technological revolutions of this magnitude have many odds to go over.
Let us not forget how many years it took for the traditional computer to come up.
@@MrWitchblade There may be any number of technological roadblocks ahead that simply haven't been accounted for. Taken together, these considerations would place us to somewhere around 50 years at the minimum.
Of course, the caveat is that the possibility of achieving scalable universal quantum computing still needs to be proven.
In that case, we might make an analogous prediction borrowed from nuclear fusion reactor research; scalable universal quantum computing is ten years away and always will be….
The bottom line is that we really are still at the beginning of a promising new technology with no clear or obvious path to achieving both a robust and scalable architecture.
@@joannewilson6577 temperature is the big problem currently. The ones which are sold are all minus 256 °c
Not practical for everyday home use.
It'll get there.
We need topological (meaning in a in-unfoldable loop) qubit system on a chip (I'll name it TOQUSOC). This way, entanglement can be permanently preserved.
Great Video, TYVM. You never fail to leave me excited for how this tech is going. Exciting Times :) cannot wait to see the fruits of this technology when mature
learning a lot, and enjoying your humour.
a tiny wish regarding names. the people's names are okay, but the companies are sometimes very shortly visible.
Parallel Quantum Computing, via superposition is the area that intrigues me.
And in your video, these parallelepipedic components can be seen at minute 11:43
Thanks for the explation
Innovation will take over now
Nice to meet you Cupid.
Wait one day it will fit in your pocket, anticipation, I see everything with Quantum computer's.
The technology is very exciting!
AWESOME CONTENT!!
i think that is better vidoe i can watch in my live because im devlopper and i pruchated your work so thank you so much
The next 50 years will indeed be very interesting the only sad part about it all is I won't be around to see it.
I don't understand most of what you teach us, but I'm really digging the steampunk vibe of these quantum computers. Feels like time travel is on its way.
Time travel is impossible in your life time at least.But who know maybe in 200 years!
@@joannewilson6577 Provided time even exists and isn't a consequence of gravity and entropy.
@@hateme5010 Among physicists, there is no real doubt that time does really, truly exist.
It's a measurable, observable phenomenon.
Physicists are just divided a bit on what causes this existence, and what it means to say that it exists.
@@hateme5010 One common misconception spread by an unclear discussion of the nature of relativity and other physics related to time is that time does not, in fact, exist at all.
This comes across in a number of areas that are commonly classified as pseudoscience or even mysticism.
@@hateme5010 Time is actually an integral part of the universe.
The very linear concept of time is tied into the concept of the Second Law of Thermodynamics, which is seen by many physicists as one of the most important laws in all of physics!
Without time as a real property of the universe, the Second Law becomes meaningless.
Using binary levels we can able to find that logic 1 for 5v and 0 for 0v(TTL).
THEN how do they find state of quibit? that means 0 or 1 or 01,10
May you can do a video on how to reuse older chip-sets for new roles. I spend a lot of time showing people how you can take older IT systems and give them new roles in today world. Just a thought! We today can get our hands on pretty high end hardware that is being sold on Ebay like sites and people want to learn to do new things with old gear... Thinking out side the box! Keep having fun for I know you are having fun (I think)!
Id like to hear about all the theoretical/plausible application of time crystals including quantum entangled time crystals.
Small remark, for quantum computing you need Tangled qubits, not just separate millions... That's more complex to initiate, to keep them useful and stabile in tangled state. Just million doesn't help and doesn't solve anything.
P.s. possibly that's physically not possible Heisenberg uncertainty.
QC is over hyped
Room temperature superconductors seem to be the key to unlocking many different problems in technology today. Superconducting magnets for fusion reactors and radiation shields in space to quantum computing and desalination and so much more.
Wonder if the hardware could be simplified by operating in space, always in sun shadow, with far less power needed to maintain mK temperatures. This would be a relatively light payload & low cost to orbit, although cosmic rays would be a troubling background, perhaps suppressed with an anti coincidence shield. The main question to me is what problems can you solve that traditional architectures can not. There are clear opportunities to ensure a message has not been read, but what other applications are interesting or useful? Super video, thanks for sharing!
As it requires power, could a solar panel of some type be efficient enough to provide the necessary shade? I could see a comms issue due to maintaining an orbit which keeps the satellite on the dark side of the Earth. I'm no expert on solar panels, engineering, or the climates of space... but it seems like a panel with some type of solar shield/insulation could allow these systems to operate around the globe without need for avoiding the sun.
@@mattallred the mid infra red camera on the James Webb telescope operates at 7 Kelvin & is kept that cold by a cryocooler powered by solar I believe. Quantum computers need milli Kelvin, about 1000 times lower, but in principle your idea can probably be made to work.
Thank you. Me too, novice in this subject but like to learn more. Hope you could share in the next video on how silicon is able to achieve qbits? Is it by quantum spin?
Also how were these chips fabricated? By lithography too?
Yes, the fabrication process is the same as for traditional silicon chips
@@AnastasiInTech thank you
Fascinating. do they have an actual working prototype of this Silicon quantum dot chip? I would imagine setting these bits with an RF transmission line could make cross talk a big problem no? I imagine if they are setting the Qbit state with an RF pulse then they also read the bit by measuring the RF Any specifications?
How are the qbits coupled or entangled?
Anastasi Just looking at all the RF Microwave plumbing its like Art Very Expensive Art but can I say Wonderful 👏
I have my own Microwave Test Equipment & that is massively expensive, I wouldn't guess how much that Copper Gold Microwave Quantum Computer costs, it's Government Research & very high end companies that could ever provide the funding, even Cryogenics to cool that is costly, I feel I am as curious as a Cat 🐈 in Electronics & Microwaves,
For your next maybe we could talk about actual programming of FPGAs ? Devices used etc,
Philip
At one point as you were discussing the potential for quantum computing, you were comparing the number of discrete states that the machine could achieve to the number of atoms or particles in our observable light cone. But, and please correct me if I am wrong here, we can only output by sampling over and over again from that large pool of states to look for the most dominant states. That is the processor could be in a super position across 10^100 states, but your sampling output might only sample 10^10 of them. So, from a informatics perspective, the limitation of quantum computers is not a function of the size of the PROBLEM SPACE they can compute IN, but rather of the size of the SOLUTION SPACE that they can output TO.
A main feature of infamous quantum computing algorithms is to find and highlight the one solution in a gigantic problem space that's otherwise supposed to be impossible to search within the limited size of the universe.
So outputting only the strongest value subset is all they need.
I’m wondering how a megabit QC will help tell us if we’re alone in the universe?
(A simple bit of math seems instructive. If intelligent life like ours requires, say, FIVE events with a 1/10^4 probability - e.g. right star, right planet, right distance, needing gas giants in the outer system, needing a large moon for tidal pools, etc - then the odds of intelligent life are 1/10^20. There are only about 10^11 stars in the galaxy, so the odds are good that we’re alone.)
That was very informative. I have been playing with programming quantum computers. I have studied quantum mechanics and quantum field theory for 45 years. I have also studied quantum string theory by Michiko Kaku.
And do you think it will work well with a 300 qubits in the next 30 years?
This seems to be more about storage capacity rather than processing architecture (actual computing). ?
Great editing and solid content, it very far in the future for sure, what about the current CPU's a little closer to the ones people might use normally?
Anastasi! Wonderful technical video! Excellent content! OBTW, has anyone mentioned today that you are incredibly cute and adorable? (Yes, you are very intellectually talented as well.) Cheers from Texas! 🤠
what happened to tristate logic that I published in 1994 ?
love your content
If you was my teacher at school I would have never missed a class 😍
Me neither, but I wouldn’t have learned anything either….
Imho, the problem with Quantum computing is fundamental physics, making it's relevant in very limited field of use. It's best use in solving quantum level problems, and it's going to be of limited use in classical world we operate.
I have a video idea for you. You can make a video for making your own chips. You can make a series of videos for people who want to build cpu architecture from nothing to the finished product.
is quantum computing complex enough to lead to consdciousness?
Great, thank you!
Have you looked into Photonic Quantum Computing?
Important message is no.3 below,
1. A fridge in 4 Kelvin is also called a fridge?🤔 Putting me inside of it then I immediately become a stone.😆😅
2. By the time he can create a hand-held quantum computer in our hand, Dr. Stefano may be about to time to retire, I guess.😅 So many challenges ahead, but he must be enjoying it.
3. This leads me thinking of an article of a journal I read almost… no, exactly 20 years ago when I was a university student. A female Danish physicist called Lene Hau in Harvard experimented light alighted into sodium atom cloud, by which made the light slowed down to 17 meters per second, and completely stopped afterwards. I also went to Harvard and met a graduate discussing a bit, just a bit, about it around 5 years ago. This led me to think about how a computer can progress in the future. Although these two discoveries look unrelated, but I think these two discoveries can integrate together to develop an commercial advanced technology or computer. I just rechecked this physicist online and Wikipedia, she also had some articles about quantum computing and qubit. I’m sure Dr. Stefano definitely know this physicist as well, maybe you can discuss something about that with him. I think something high-tech similar with the movie inside Star Trek will become true in the future. My work is unrelated to these high-tech for now, otherwise, I do like to research these fields as well.
Can you imagine cloud Q-bit processing on a 5G network guided by Real A.I.. You asked for ideas, look into nuclear diamond battery or N.D.B. Also interesting would be a segment on 5G and new technologies that will be possible thanks to it's latency.
Well we're decades away from real AI. We haven't even scratched the surface on that one. Although media hype with claims of AI tech would make you think otherwise.
Nice video, would you be covering a video on MEMS too including radiation hardened packages for MEMS Thank you
Very nicely done, a uniquely pleasant way of presenting complex topics in easily digestible form. Although entangled electron spin strategies are the common current focus, it is the entangled photonic approach which may eventually become the prolific arena of development. There are many (myself included) who see optical computing as the eventual manifestation of the next great paradigm in computation, including optical neural networks, etc. Perhaps a program on this would be interesting?
Thank you!
If most operations are yes or no, what is the practical application of a system that can be both simultaneously?
(Perhaps I need to understand computing at a core level?)
Brain to Brain,interface,presente and futuro.Is a good topic,for a video.
At 9:35 you have a picture of a CDC 6600 and you're referring to it as a Cray-1. The 6600 preceded the Cary-1 by about a decade.
Quantum computers with a million+ qbits is no joke. It could potentially, or arguably inevitably be the most dangerous invention ever made. It will certainly change the world into something we have never seen before for better or worse.
Yeah no. Stop watching sci fi movies.
@@lolocaust4967 Well I don't watch many sci fi movies. But I am concerned about encryption. And the markets for starters.
I think your videos are excellent. Would you like to do an updated video on Bitcoin mining ASICs?
It is not only about where WE(as US) are in this quantum computer hardware research, but also, at what stage are other nations(if they are any).....like for example Canada and China/Baidu Co. or OQCT and Huawei and others.....I would like to hear/see some comparisons of at what stage everybody else is and if there are other nations working on a future of computing (like Singapore atc.)
I'll listen to whatever cuty wishes to discuss.😘
This would break a cryptography in seconds... but I would just use quantumn computer to build myself a second me.
😅
@@AnastasiInTech or find complex solution for modern problems like asthma, and pneumonia. People thinking deep going for impossible like time machine when they hear quantum.
seen this same exact word for word interview with different actors in 2010
Nice Video !!!
ive found your channel by acciedent.... damn your voice is lovely
How much computation would a million Qbits create? Like if they scale exponentially
Would it be best to build a mega Quantum Computer in Space since its very cold and quiet? (Once we Master Scalability.)
DWave also build quantum ship for years, what are the differences with Intel ?
Thanks
this video has put my mind in a quantum state … 😂🔥👍🏻😊
Room temperature photons in superposition is way way better than using dilution refrigeration and microwave’s.
I think quantum computing for commercial application will only be achieved thru something similar but not exactly quantum dots.perhaps we shall need to research new material and how different materials could achieve a qubit in different ways .we could simulate -1 ,0,1 state where 0 is similar to a stationary wave by use of different ideas like reflection or spin of atoms with in a new material not necessarily silicone.but that is just a thought?????.
I think the brain is performing quantum computation.
Perception (understanding, insight) requires large-scale parallel computing.
So does Roger Penrose. You're in good company.
@@Chipchap-xu6pkQuantum computation can simultaneously evaluate the set of alternatives that cause a combinatorial explosion and select an alternative with relatively high likelihood.