As a machine learning engineer working at Google, take this video with a grain of salt. We actually have a lot of problems in regards to our teams and task pipeline processes. The big bosses are trying to show the polished but unfinished products to investors.
TIL that those "chandelier" is basically a fridge to make sure the quantum computer chip is working at 0.01 kelvin. This is mind-bogglingly impressive! So thankful for having smart people in the world
Finally a great explanation for the , the umm, the, ahhh, computing for dummies. What I love is the young amazing engineers that are putting it together. The true artistes.
They basically said quite clearly, they didn't even have a quantum computer yet. Their test was done as a simulation. The object chandelier is just a cooler for a yet to be created processor.
I want to work on this😮. Sadly, I won't reach the bar ig. But, superbly impressive. Hope it truly works❤ For me- Life has some great inventions and things in store for me too... just follow your heart and invent things Yuvi❤🎉❤🎉
One thing that is never, ever said.... what are these computers running? Can they demonstrate what its running? Can they show any data or real-time data?
every day we stray closer to quantum computers breaking rsa encryption in reasonable time i also loved the part where they talked about all the AI in the quantum AI lab with all of the AI in the AI of AI
D-Wave's quantum computing, based on quantum annealing, has proven to be a commercially mature and scalable technology, ideal for solving specific optimization and simulation problems with immediate practical applications in sectors like logistics and finance. Unlike universal quantum computers in development, such as those by IBM and Google, which promise broader versatility in the long term, D-Wave focuses on a concrete niche where it already delivers real value. While limited in scope, its accessibility and usability make it a practical choice for companies looking to harness the benefits of quantum computing today.
A big slap on the faces of people who think scientists and engineers are boring and uncool .....these are the coolest engineers ever i would befriend then immediately ❤❤❤❤
Now i want to run Programs on it. Wait didn't IBM had a Quantum Sandbox two years ago where you could enlist for access? I wonder what happened to my application there..
❤If a quantum bit can be a 1, 0 and both. The analogy is that each bit has three states, that means a combination of two can make 9 values. That is if both(entails 01 and 10 concurrently). If 1 is 11 and zero is 00. For a qubit with 4 states. Remember a classical bit has two states.❤
Honestly, thank you so much for this video! I've always heard of quantum computing but always got scared away because of the complexity of the topic. However, the way the video is put together and the explanations given made it seem so cool and a bit less scary (I bet it's still very complex haha). I'm hyped for the future, thanks Google Quantum AI!
It's incredible to observe Google's Quantum AI lab's inside operations! The film demonstrates the cutting-edge research and aspirational objectives propelling quantum computing forward.
You should be proud to be part of Team that works on " Technical Revolution" called Quantum Computing. It will change our life's, give us possibility to reach, unreachable, to do unthinkable, to find cure for till now, unknown medicines etc. I salute You, Bravo.
Fascinating tour of the Google Quantum AI lab! The way you’ve demystified quantum computing and the intricate process of developing and managing qubits is impressive. I especially enjoyed seeing the behind-the-scenes work that goes into creating such cutting-edge technology. The visual explanations of the quantum processor and the packaging were particularly enlightening. Looking forward to seeing how these advancements continue to shape the future of computing!
This is a super interesting technology vector. Eh, if only I had an opportunity to work with AI based on Quantum computers I am a senior business analyst and product owner, without experience with such innovative tech, but I'm sure - this is the future of humanity, and if there was any chance to get on this job - what would make me so happy. I can learn whatever needed, but even someone said "ok dude, let's take you for a testing period" - unfortunately I am Ukrainian, and we have war and there is no place for such a dream, it's about surviving of our nation, even in Kyiv russian drones and rockets are hitting all the times :( Good luck to all people, who work with such interesting technologies, and make this world better for all the humanity because we are one Earth family
One quantum scientist explained it as "getting back all the possible answers to your question in less than a millionth of a second". As soon as you press "Enter", you have the answers.
If we have the ability of instantaneous information teleportation anyway, then we don't need ultra small microprocessors or quantumprocessors. Perhaps use 1cm-size multi-state transistors that can teleport information to another. That way you can have a wall-sized computer and it is easy to change components with the naked eye?? Perfect for hobbyists. :) Sorry, I am remembering the huge PCBs in Star Trek Enterprise TV series and the isolinear storage chips that were supposed to be "quantum optical" already.
There’s gotta be some interesting compilers that quantum gates enable… I mean just imagine what you can do with an instruction that says “store this imaginary state for later.” It’s not a 0 or 1, it’s like a GPS coordinate. In a universe where you can either be a sun or a black hole, suddenly there’s the possibility for planet-grade complexity. And we all know what happened on earth… but the future’s computational creativity will be “locked in” proportionally to how creatively folks arrange those Hadamard gates 😅 what’s the Goldilocks zone for a quantum computer?
Between a few thousand and a few million qECC bits lol We're a long way off supersystems I think, but to us this stuff is going to be scary-powerful. Already is, look at all the panic around encryption for years. Decades even, if you look
I’m guessing a completely new programming language. Most languages, and classical algorithms were designed for the Von Neumann architecture. This is a complete redesign of the fundamental architecture & state.
why is this whole system so big ? I mean why not squeeze those cooling plates together and have less distance between them and why do we need such big cables for communication. Also why are we still using such low qubit amounts and are not cranking up the amount to millions or trillions ?
We should be very careful while experimenting, because if there is any possibility that we are the only living planet in this universe then if this leads to destruction,then we as humans will be responsible
Two Questions: . How did you get to that next step of making quantum computers real compared to what we already had of them..how did you figure out what to do and what made the difference? . How do you all deal with that next level of cold?
My 8 year old brother is smart and interested in knowing about Quantum Computing. So, I wanna know how it works from inside, because outside structure is so basic information. In case if have any idea or way he could make something kind of look like this model for upcoming or next science exhibition, with some basic working functions, that'll help easy to explain others!
In case if have any idea or way he could make something kind of look like this model for upcoming or next science exhibition, with some basic working functions, that'll help easy to explain others!
Computerphile has a great video series on it, but it is more geared for high schoolers. Tell your kid to think of this: You have this little top, ok? This top can either spin clockwise or counter clockwise. Depending on the direction it spins, the field around it acts differently. Now it's important to know that qubits aren't *physically* spinning but for all intents and purposes, it's "spinning" ok? But you don't really know for sure what direction it's spinning in. You either know it has a certain chance of spinning leftwards, or rightwards. So instead of using 1s and 0s, you have values that can range between 1 and 0. So when you do the calculation, you can have *way* more data stored in just one qubit, because instead of just 1 and 0, you have values like 0.3, 0.438593847, 0.999997, etc. So you can do much bigger calculations, much faster.
@@CyberSecurityClips I would recommend your kid to get a bunch of old beyblades. ones that spin left, and one that spin right. but you're not going to show people which beyblade they chose, they only have a certain *chance* they select a specific beyblade (a left spinning one or a right spinning one). They are allowed to select two beyblades, and you attach them to a box and you can have people pull strings to set them off, and only after a winner is declared, you can reveal which ones were chosen. The tiny differences in spin can result in winners being different. It's not a perfect analogy but it's perfect for elementary schoolers!
Then you have your kid explain that quantum computers is like when you can't really know how they're spinning, or really how fast they're going, at the same time. You just know that there is a certain *probability* that you have a left beyblade (a number close to 0) or a right beyblade (a number close to 1) and when these two beyblades interact you're sort of performing some sort of "calculation" of it. But a quantum computer is like running A WHOLE BUNCH of these tests ALL AT ONCE! but when you do these beyblade simulations and sort of check the average result, you kind of see the "outcome" a qc would spit out! You would have kids draw out of a bag, and you wouldn't let them know what they chose until *after* the results of the game, and you could show a sort of data chart of all of the games over time--and explain how a quantum computer is like running a *gazillion* of these tests to see what the result would be! ...at least I *think* that's how QCs work someone pls correct me if I'm wrong It's essentially like doing a whole bunch of computations on some probabilistic value, in the simplest terms. IDK im a cloud guy lol
The fact they’re making physical qubits is mind blowing
I made 10 for my graduate college project
As a machine learning engineer working at Google, take this video with a grain of salt. We actually have a lot of problems in regards to our teams and task pipeline processes. The big bosses are trying to show the polished but unfinished products to investors.
Can you tell me how you got that job?
How did you get there? Tell me how were you so consistent in your studying?
There is no doubt you know a lot about ML as a MLE, but what do you know about QC?
Isn't that every tech company? haha
unemployment speedrun
TIL that those "chandelier" is basically a fridge to make sure the quantum computer chip is working at 0.01 kelvin. This is mind-bogglingly impressive! So thankful for having smart people in the world
This is the stuff that keeps me hyped for my degree
What degree are you doing?
@@benbrindley3672 Electrical Engineering ⚡️
Please, what degrees?
@@benbrindley3672Electrical Engineering
@@benbrindley3672electrical engineering
What was Ai about it?
Marketing 😅
They are slapping AI on literally everything now, which is pretty cringe
These computers are to simulate entire universes in seconds and in them artificial life.
@@joserosales2113Google “World Models”
I think that's just the name of the lab and indicating that they also try out (or hope to) AI algorithms
Nice production value. A+ for marketing department.
that is about where it stops
Finally a great explanation for the , the umm, the, ahhh, computing for dummies. What I love is the young amazing engineers that are putting it together. The true artistes.
They basically said quite clearly, they didn't even have a quantum computer yet. Their test was done as a simulation. The object chandelier is just a cooler for a yet to be created processor.
Quantum processors already exist tho
@@eduardocontin ... not really if they do we do only military has it
I love this simple video, thanks for that nice explanation of the basics
When is the Desktop Version Coming Out?
give it oh 40or4 Years or decades,,,
I want to work on this😮.
Sadly, I won't reach the bar ig.
But, superbly impressive.
Hope it truly works❤
For me-
Life has some great inventions and things in store for me too... just follow your heart and invent things Yuvi❤🎉❤🎉
Producers: uhhh idk push this scope around on a cart for some B roll 🤷🏻♀️
Neat stuff fellow nerds
One thing that is never, ever said.... what are these computers running? Can they demonstrate what its running? Can they show any data or real-time data?
I heard one quantum computer did 4 x 4 = 16. Not sure if there has been any further progress.
It's just theoretical at the moment.
Never....not even a hint.
Your life, soon.
@@M4T1J4P0 Exactly.....
every day we stray closer to quantum computers breaking rsa encryption in reasonable time
i also loved the part where they talked about all the AI in the quantum AI lab with all of the AI in the AI of AI
how about making chrome faster)
Chrome is slow because your PC is weak - solution is to buy a normal one.
@@renuk8560 32gb is not enoght but 1mb is okay to fly to the moon on Appollo
Use more ram
@@krox477 "download" more ram on the internet ;;))))
download more ram
5:45 Smooth !
Kudos to the whole team .
D-Wave's quantum computing, based on quantum annealing, has proven to be a commercially mature and scalable technology, ideal for solving specific optimization and simulation problems with immediate practical applications in sectors like logistics and finance. Unlike universal quantum computers in development, such as those by IBM and Google, which promise broader versatility in the long term, D-Wave focuses on a concrete niche where it already delivers real value. While limited in scope, its accessibility and usability make it a practical choice for companies looking to harness the benefits of quantum computing today.
A big slap on the faces of people who think scientists and engineers are boring and uncool .....these are the coolest engineers ever i would befriend then immediately ❤❤❤❤
Somthing tells me you're yet to "befriend" anyone...
very inspiring! Thanks for sharing!
in santa barbara? where?
Now i want to run Programs on it. Wait didn't IBM had a Quantum Sandbox two years ago where you could enlist for access? I wonder what happened to my application there..
Great video. Simple and informative.
You don't have to actually cool the chip... that's the interaction which it has to take place at now. The byproduct is free electricity... 😊
❤If a quantum bit can be a 1, 0 and both. The analogy is that each bit has three states, that means a combination of two can make 9 values. That is if both(entails 01 and 10 concurrently). If 1 is 11 and zero is 00. For a qubit with 4 states. Remember a classical bit has two states.❤
Beautiful minds
I came here for Quantum Computing, but I'm looking forward to seeing more of Qubit.
look up the Patent
Great showcase! I wish to work in this in the future.
It's like this for years with no progress, what ur talking about
You clearly haven't been following it if you think there hasn't been progress. Denyyyyy @@dr.angerous
Great video !
I love Qubit, the Quantum Companion. ❤
How many tdp? How many clock booat? How many super core?
The future👍👍👍👍👍👍
Does it explain quantum space / time / gravity / time . ? A beautiful AI computer .
Is Google also looking at neutral atom technology (for scalability)?
Honestly, thank you so much for this video! I've always heard of quantum computing but always got scared away because of the complexity of the topic. However, the way the video is put together and the explanations given made it seem so cool and a bit less scary (I bet it's still very complex haha). I'm hyped for the future, thanks Google Quantum AI!
It's retarded idiot
It's incredible to observe Google's Quantum AI lab's inside operations! The film demonstrates the cutting-edge research and aspirational objectives propelling quantum computing forward.
You should be proud to be part of Team that works on " Technical Revolution" called Quantum Computing. It will change our life's, give us possibility to reach, unreachable, to do unthinkable, to find cure for till now, unknown medicines etc. I salute You, Bravo.
Do u program it the same way as Intel and ARM ?
as an AI engineer at google, I am eyeing for a position in this department in the future :)
what sort of experiments can we devise pls :p lets have some fun
in the future, I would like to participate as an electronic engineer in Google Quantum ai, I love that and my dream💖
Fascinating tour of the Google Quantum AI lab! The way you’ve demystified quantum computing and the intricate process of developing and managing qubits is impressive. I especially enjoyed seeing the behind-the-scenes work that goes into creating such cutting-edge technology. The visual explanations of the quantum processor and the packaging were particularly enlightening. Looking forward to seeing how these advancements continue to shape the future of computing!
How does this not collapse the wave function the instant the results are observed?
So room temperature superconductors will help make this generally available?
ok, that's new level of "WOW" (omg when I was in college I was looking at Tube Theory !! )
This is a super interesting technology vector. Eh, if only I had an opportunity to work with AI based on Quantum computers
I am a senior business analyst and product owner, without experience with such innovative tech, but I'm sure - this is the future of humanity, and if there was any chance to get on this job - what would make me so happy. I can learn whatever needed, but even someone said "ok dude, let's take you for a testing period" - unfortunately I am Ukrainian, and we have war and there is no place for such a dream, it's about surviving of our nation, even in Kyiv russian drones and rockets are hitting all the times :(
Good luck to all people, who work with such interesting technologies, and make this world better for all the humanity because we are one Earth family
first it needs a OS... because Micro TRASH or CRAPPLE garbage will not run on it
Huge achievement, game changing breakthrough and disruption in coming years many industries and sectors worldwide.
Cool Running 🥶🤯
Excellent video
Awesome team!
This looks cool. 😎
lucid explanations 👍
cool (or actually very very cold 🙂) stuff.. thx for sharing. I always wonder what that big dangling piece is for. Now I know.
Finally we will be able to play Cyberpunk 2077 at decent framerates
It is beautiful, as a programmer I have seen some code and it will be a challenge to use it in the video game we live in.
My question is how does the aluminum and silicon chip keep its integrity. I would think they’d crack and become brittle under the cold.
I Will Like This Tech In Couple of Decades to be so power Efficient to Run in our Day to day Daily Devices
One quantum scientist explained it as "getting back all the possible answers to your question in less than a millionth of a second".
As soon as you press "Enter", you have the answers.
Threading a wire bonder, brings back so many happy memories ;)
Why would a company like Zapata Computing shift away from Quantum Computing and towards Large Language Models?
Im doctor and learning to train AI models .How can i work with you guys?
Quantum computers will roll over humanity in future.
coolest job on earth literally
Let's pretend we understood all the science involved 🤓
What kinds of micro-code are you running on these 'QPUs" as I like to call them?
What kind of frame rates can this thing pump out?
If we have the ability of instantaneous information teleportation anyway, then we don't need ultra small microprocessors or quantumprocessors. Perhaps use 1cm-size multi-state transistors that can teleport information to another. That way you can have a wall-sized computer and it is easy to change components with the naked eye?? Perfect for hobbyists. :) Sorry, I am remembering the huge PCBs in Star Trek Enterprise TV series and the isolinear storage chips that were supposed to be "quantum optical" already.
You don't suspect your drop sizes is it going to do the same thing as the other side and not putting a lot of minerals
There’s gotta be some interesting compilers that quantum gates enable… I mean just imagine what you can do with an instruction that says “store this imaginary state for later.” It’s not a 0 or 1, it’s like a GPS coordinate. In a universe where you can either be a sun or a black hole, suddenly there’s the possibility for planet-grade complexity. And we all know what happened on earth… but the future’s computational creativity will be “locked in” proportionally to how creatively folks arrange those Hadamard gates 😅 what’s the Goldilocks zone for a quantum computer?
Between a few thousand and a few million qECC bits lol
We're a long way off supersystems I think, but to us this stuff is going to be scary-powerful. Already is, look at all the panic around encryption for years. Decades even, if you look
I wonder if the NSA already has quantum computers that they use to spy.
They have lots of analog electronics components. Keep that in mind if you want to get into this field :)
By my calculations, 200 seconds to 10,000 years is something in the order of 1 : 1.5B. Not a bad increase in performance, one could say. 😁
Can’t wait to use this for a selfie.
So qbit is a transistor?
When can I get my desktop version ????????
Oh this looks the same as the one on the spaceship in the film, Sunshine.
Very interesting fact I gotta remember when im on jeopardy
Do you think using p as a concept coding language it's going to cause a bunch of mistakes
Thanks
Hello from Oxnard
What is the programming language do you use to program these quantum computers?
I’m guessing a completely new programming language. Most languages, and classical algorithms were designed for the Von Neumann architecture. This is a complete redesign of the fundamental architecture & state.
@@abpdev hmmm my job is at Risk then 🤣
Probably C++ and Rust. There are Q#, Cirq Python framework to write the programs for quantum computer.
@@w1-w2-w3 c/c++ 👋😊😊 delights me
It's almost entirely done in python, the actual signals are then sent to lasers using FPGAs and specialty hardware.
I wonder what recent applications have there been from quantum technology. Imagine if google used this to design some sort of next gen tensor chip!
Thumbnail: DEI
Classic Google.
Here we go guys!
Can it calculate something useful?
COOOOOOOL NIIIIIIIIIIICE😁😁😁😁😁
why is this whole system so big ? I mean why not squeeze those cooling plates together and have less distance between them and why do we need such big cables for communication. Also why are we still using such low qubit amounts and are not cranking up the amount to millions or trillions ?
We should be very careful while experimenting, because if there is any possibility that we are the only living planet in this universe then if this leads to destruction,then we as humans will be responsible
Very. Good
wonderful!
CONGRATULATIONS 👏 AND PRAYERS BY RAVINDER TALWAR JALANDHAR CITY PUNJAB INDIA 🍀
How many PhDs worked on this? Great work btw
Quantum computer is just a sci fi tool for me just wow
Two Questions:
. How did you get to that next step of making quantum computers real compared to what we already had of them..how did you figure out what to do and what made the difference?
. How do you all deal with that next level of cold?
This is where a new world begins (^).
How much gold do these quantum computers use?
Ese Tim Hamburguesa recibe mucho relajo por allá 😂
I don't even know what a calculus is, still wanna understand this. :)
My 8 year old brother is smart and interested in knowing about Quantum Computing.
So, I wanna know how it works from inside, because outside structure is so basic information.
In case if have any idea or way he could make something kind of look like this model for upcoming or next science exhibition, with some basic working functions, that'll help easy to explain others!
In case if have any idea or way he could make something kind of look like this model for upcoming or next science exhibition, with some basic working functions, that'll help easy to explain others!
Computerphile has a great video series on it, but it is more geared for high schoolers.
Tell your kid to think of this:
You have this little top, ok? This top can either spin clockwise or counter clockwise. Depending on the direction it spins, the field around it acts differently. Now it's important to know that qubits aren't *physically* spinning but for all intents and purposes, it's "spinning" ok?
But you don't really know for sure what direction it's spinning in. You either know it has a certain chance of spinning leftwards, or rightwards. So instead of using 1s and 0s, you have values that can range between 1 and 0.
So when you do the calculation, you can have *way* more data stored in just one qubit, because instead of just 1 and 0, you have values like 0.3, 0.438593847, 0.999997, etc.
So you can do much bigger calculations, much faster.
@@CyberSecurityClips I would recommend your kid to get a bunch of old beyblades. ones that spin left, and one that spin right. but you're not going to show people which beyblade they chose, they only have a certain *chance* they select a specific beyblade (a left spinning one or a right spinning one). They are allowed to select two beyblades, and you attach them to a box and you can have people pull strings to set them off, and only after a winner is declared, you can reveal which ones were chosen. The tiny differences in spin can result in winners being different. It's not a perfect analogy but it's perfect for elementary schoolers!
Then you have your kid explain that quantum computers is like when you can't really know how they're spinning, or really how fast they're going, at the same time. You just know that there is a certain *probability* that you have a left beyblade (a number close to 0) or a right beyblade (a number close to 1) and when these two beyblades interact you're sort of performing some sort of "calculation" of it. But a quantum computer is like running A WHOLE BUNCH of these tests ALL AT ONCE! but when you do these beyblade simulations and sort of check the average result, you kind of see the "outcome" a qc would spit out!
You would have kids draw out of a bag, and you wouldn't let them know what they chose until *after* the results of the game, and you could show a sort of data chart of all of the games over time--and explain how a quantum computer is like running a *gazillion* of these tests to see what the result would be!
...at least I *think* that's how QCs work someone pls correct me if I'm wrong
It's essentially like doing a whole bunch of computations on some probabilistic value, in the simplest terms. IDK im a cloud guy lol
Well, can it run Crysis in 1080p ?
This will feels like ENIAC once the Room Temp Superconductor exist.😅
Hurry up with the Time Machine