Registered at IBM Quantum Learning. Just finished my CCNA and came across the concept of qubits looking to advance my skills. Love the topic of Quantum Computing and can't wait to get started. Thank you, Olivia and IBM for making this content freely accessible.
I saw olivia in a youtube video explaining quantum computing to some influencers. The way she explains is the only reason I got my interest in quantum computing.
Im a doctor(about tobe :v). I try to train AI models using Quantum computer.Hoping i can learn from Qiskit as much as i can and contact with you guys.Thanks a lots for your lessons !!!
As it was difficult for human to move from decimal counting to binary counting, it will be hard too to move from classical computing to quantum computing. When that happen, people will see how pioneers were able to make that shift. Thanks for the nice introduction and I hope the rest of the course will be as clear as this one.
Thanks Olivia! Even though this first episode (being an intro) does not yet deep dive into quantum computing, it certainly has attached my interest and looking forward to more material! Digesting information provided by Olivia is so enjoyable anyway 😊 Regards from Europe!
Great video! I really appreciated the clear explanations and the practical insights. Looking forward to the upcoming episodes and learning more with each one. 👍#learnquantum
We are living in very powerful exciting times. We are embarking on dawn of Quantum computing. Quantum computing is going to be a great adventure for all of us in this new quantum technology field. Thank You IBM. SOSSTSE SCIENTIFIC TECHNOLOGY SOLUTIONS. ❤❤❤🎉🎉🎉
9:14 "Without quantum mechanics we wouldnot probalbly understand or have been able to invent the solid state hard drive for example." Impressive, I am curious to learn more bout this statement. 🤩
Gordon Moore's observation was only about the number of transistors. He didn't mention anything about their size. Good introduction. Looking forward to the rest of the series.
If this series does what it promises I'll be very happy (for a moment, after that I'll realise that I'm living in a late stage capitalist world and be sad again).
Are the slides available for download? They've been very handy for the "Understanding Quantum Information & Computation" presentations. Thanks and looking forward to these presentations.
This is an exciting series and thank for fostering our creative juices. Is it possible to have Qiskit create models for something like this? A quantum-state memory device IC or could I create a model, where I can input the "address" "command" and "data" which are three discrete superimposed frequencies enveloped as a wavelet. And if a circuit connection at the location at that frequency is open or closed, then that state may change based on the command and open/closed, and a reflecting wave comes back with a specific phase based on whether it was on or off. The ability to input a classical lattice (perhaps as a graph) to represent, say: an electronic circuit lattice with LC values, maze puzzle lattice (with only one solution), or an airline system lattice with dynamical models for costs and weights back and forth, attach some observation areas, and have the system be solved through resonance by inputting wavelets at the input, and determining the solution to the lattice, at the various nodes and vertices throughput. Can each node have "quantum" properties as the dynamical models. Can adding that non-linear knowledge of the internal stress dynamics predict where a classical system will stress itself out or not work? The ability to factorize an integer faster (or more efficiently) than a GPU, for example in Python, having primePy.factorize() execute in some time or faster? Have two systems of qubits interact with one another via some coupling factors which we pre-assign?
This is yet another hyped forward-looking presentation on QC. Very much look forward to seeing the “quantum computer that exists right now” (not a simulated quantum computer, not a piece of a QC which - if we knew how to wire it to the real world may do something) in the next episodes. The whole thing is content-free as far as i can see. And the couple of facts that are presented are actually wrong - for example Nvidia is already simulating c 1100 qubits (not just 100). And "quantum machine learning" ha ha ha. Once thing she is right about is that there are "billions of videos on the internet" about quantum computing. This is just another one.
The purpose of this course is actually exactly the opposite of what you claim. I think I was pretty clear that we are not interested in hype, nor forecasting the future. We are only going to describe what can be done with the quantum computers that exist right now, and how to do it. Furthermore Nvidia cannot simulate 1100 qubits...this is physically impossible. The team is doing interesting work for sure, but directly from the website they state: "An NVIDIA DG A100 system with eight NVIDIA A100 80GB Tensor Core GPUs can simulate up to 36 qubits." As far as I am aware 36
Gemini: This video is the first episode of a series called "Quantum Computing in Practice" by Qiskit. It aims to teach viewers how to use a quantum computer to its full potential. The speaker, Olivia Lan, a researcher and educator at IBM Quantum, argues that quantum computers are entering a new era of usefulness. Previously, quantum computers were only useful for simulating small circuits. Now, with new advancements, quantum computers can outperform classical computers for certain tasks. One reason why quantum computers are becoming more useful is that IBM has made quantum processors with over 100 qubits available. These processors are too complex for classical computers to simulate. This course is designed for a broad audience, including those who already have a basic understanding of quantum computation and those who are new to the field. The course will cover how to create and run quantum computing jobs, error mitigation techniques, and potential application areas. The speaker also briefly discusses the history of computation, noting that quantum computers are just the next step in a long line of advancements. Quantum computers are not meant to replace classical computers, but rather to complement them. In the next episode, the speaker will discuss 100 qubit systems and how to interact with them using the Qiskit software development kit.
While I get that AI itself will benefit from quantum computing, aren't they kinda achieving many of the theoretical benefits we hope quantum computing will have already? Like protein folding for example. More and more theoretical benefits of quantum computing are being 'eaten up' by machine learning algorithms today. How do you see this?
In the realm where particles dance and spin, Entangled threads, where realities begin, Quantum whispers, mysteries within, A cosmic dance, where wonders grin. Entangled pairs, in quantum's embrace, Spinning in sync, through time and space, Linked by laws, no one can erase, A bond of mystery, in every case. Quantum computing, a revolution's dawn, Harnessing entanglement, where paths are drawn, Bits of qubits, in states withdrawn, Calculating realms, previously withdrawn. Parallel processing, in quantum's domain, Simultaneous pathways, a computational gain, Solving puzzles, with quantum's reign, A new frontier, where knowledge reigns. Entangled threads, computing's key, Unlocking realms, previously unseen, In the quantum dance, where dreams convene, A future bright, yet to be seen.
I really love this course, but, please make the English subtitles because my English skill is not that good to understand this video without subtitles. Thank You!
I wish I can do online summer school in using 100 qubits. My tries so far are basically me blinding figuring out how they work and try to do my research on them. This course definitely will help!
Every computer is a quantum computer, computers compute the Quantity or Quantum of values. Semi conductors of the computers in ROOM TEMPERATURE have reached their operating frequency's speed limit. Transistors are ionic switches that with higher frequency of switching they get hot and create errors / noise. The most practical way of cooling the processors is with Heat Sinks and Fans which we have been using. Quantum Computers are the higher frequency computers with liquified gas cooling pipes. Concept and the technique of parallel processing is as old as the invention of IC (integrated circuit). We can connect multiple fan cooled regular computers in parallel to achieve the same performance of a Quantum Computer, all we need is a synchronization algorithm to compensate for network latency, same as the one for supper computers.
Warum sagt die Tussie nichts darüber, wie die Entwicklung der Fehlerkorrektur bezüglich des Verhältnisses von physikalischen zu logischen Qbits verläuft?
I’ll be honest, I think QM computers are not going to have any advantage over classical computers. Believing so involves two things 1) that hyper computation is possible… that quantum computers can perform computation better than classical computation as outlined by Turing. 2) That if hyper computation does not exist that any computer can do what quantum computers can do. Therefor, in order to believe quantum computers will work, means you must believe the universe is strictly stronger than a Turing machine, which means you’d be able to solve the halting problem which is nonsense. And if hypercomputation does not exist, then it means QC’s will never have an advantage over a Turing machine. It’s a lose lose situation. If Turing taught us anything it’s that hardware doesn’t matter, we can just create instructions and feeding it to the same machine. It’s about algorithms, not hardware. Don’t get me wrong, I’m not saying we shouldn’t build different computation structures to leverage nature’s properties to do computation, I’m just saying that there will just be no advantage.
I love how the Qiskit team is making quantum computing more acessable. Im ready for episode 2!
Registered at IBM Quantum Learning. Just finished my CCNA and came across the concept of qubits looking to advance my skills. Love the topic of Quantum Computing and can't wait to get started. Thank you, Olivia and IBM for making this content freely accessible.
I saw olivia in a youtube video explaining quantum computing to some influencers. The way she explains is the only reason I got my interest in quantum computing.
Olivia Lanes explaining in detail my entire junior Data Processing course content is really refreshing...!
Finally !! Signed Up on IBM Quantum.
Extremly interesting first video! Olivia is always amazing!
Well done, Olivia! Looking forward to the following episodes!
The victory sound when quantum computing waa mentioned is great!
Already on the track!!! Thnks Olivia!!! Greetings!!!
Fantastic! I can't wait for the next episode of this series. Olivia has the magic to tie everything together in such a succinct delivery.
Im a doctor(about tobe :v). I try to train AI models using Quantum computer.Hoping i can learn from Qiskit as much as i can and contact with you guys.Thanks a lots for your lessons !!!
As it was difficult for human to move from decimal counting to binary counting, it will be hard too to move from classical computing to quantum computing. When that happen, people will see how pioneers were able to make that shift. Thanks for the nice introduction and I hope the rest of the course will be as clear as this one.
Good to see IBM leading the way in computer science, well done Qiskit team.
Thanks Olivia! Even though this first episode (being an intro) does not yet deep dive into quantum computing, it certainly has attached my interest and looking forward to more material! Digesting information provided by Olivia is so enjoyable anyway 😊
Regards from Europe!
Absolutely indispensable series! Thank you, Olivia!
Thansk Olivia for all you make for the Quantum Computation.
Eagerly waiting for next episode, please bring it ASAP.
Great video! I really appreciated the clear explanations and the practical insights. Looking forward to the upcoming episodes and learning more with each one. 👍#learnquantum
We are living in very powerful exciting times.
We are embarking on dawn of Quantum computing. Quantum computing is going to be a great adventure for all of us in this new quantum technology field. Thank You IBM.
SOSSTSE SCIENTIFIC TECHNOLOGY SOLUTIONS.
❤❤❤🎉🎉🎉
9:14 "Without quantum mechanics we wouldnot probalbly understand or have been able to invent the solid state hard drive for example."
Impressive, I am curious to learn more bout this statement. 🤩
when you will release the episode 2
Please provide the link or anything for basic basic understanding of Quantam Computing, which is referred at 3:40- 3:45
ruclips.net/video/3-c4xJa7Flk/видео.html
Thanks for the awesome introduction, Ma'am.
I remain highly expectant for the next.
Great start of a great series! Please continue 🙂
Gordon Moore's observation was only about the number of transistors. He didn't mention anything about their size.
Good introduction. Looking forward to the rest of the series.
Much more insightful thanks for starting such learning series....
Her speech and lecture is very nice, clear....
Fantastic first episode
Thank you so much for the Best Presentation!
Eagerly waiting! 👍
Great series! Is there a known schedule for when these episodes come out?
I have very high hopes for this series!!
If this series does what it promises I'll be very happy (for a moment, after that I'll realise that I'm living in a late stage capitalist world and be sad again).
Thanks for this informative lecture!!! ❤😊🎉
10 year from now folks watching this.... 😮 See this uploaded 10 year ago.
Looking forward to the next lesson
Personally I find part 1 very well done and interesting!
Thanks so much, check out the rest :)
Nicely compiled, thank you 🙌🏻
It was awesome! Thanks all
when will the next come in?
what is the difference between simulators and quantum systems ?
Are the slides available for download? They've been very handy for the "Understanding Quantum Information & Computation" presentations. Thanks and looking forward to these presentations.
i cant login on ibm quantum with my IBMid anymore, it always just brings me back to the login page without getting logged in
Very helpful. The #Qiskit team, Can you kindly provide these slides in pdf format?
Amazing. Can't wait for the next lessons 🧮💽🌝
Waiting for the 2nd episode. When will it be released?
keenly looking forward to the next episode (is there going to be one? or, do we go back to the current lengthy ones!)
Will there be other videos soon?
Good overview introduction.
wheres episode 2??
Eagerly waiting for the next episode !!
Can you post the pre - requisite course you spoke about .. exciting !!
Sure thing, it was John's course here: ruclips.net/video/42OiBzfdE2o/видео.html&pp=iAQB
Looks like I'll now be completely consumed by this course for the next week
Nice and clear presentation. 👏
Awesome! Can't wait for the next one!
This is an exciting series and thank for fostering our creative juices.
Is it possible to have Qiskit create models for something like this?
A quantum-state memory device IC or could I create a model, where I can input the "address" "command" and "data" which are three discrete superimposed frequencies enveloped as a wavelet. And if a circuit connection at the location at that frequency is open or closed, then that state may change based on the command and open/closed, and a reflecting wave comes back with a specific phase based on whether it was on or off.
The ability to input a classical lattice (perhaps as a graph) to represent, say: an electronic circuit lattice with LC values, maze puzzle lattice (with only one solution), or an airline system lattice with dynamical models for costs and weights back and forth, attach some observation areas, and have the system be solved through resonance by inputting wavelets at the input, and determining the solution to the lattice, at the various nodes and vertices throughput. Can each node have "quantum" properties as the dynamical models. Can adding that non-linear knowledge of the internal stress dynamics predict where a classical system will stress itself out or not work?
The ability to factorize an integer faster (or more efficiently) than a GPU, for example in Python, having primePy.factorize() execute in some time or faster?
Have two systems of qubits interact with one another via some coupling factors which we pre-assign?
when is the next ep coming out?
Thanks mam so much for the videos
This is yet another hyped forward-looking presentation on QC. Very much look forward to seeing the “quantum computer that exists right now” (not a simulated quantum computer, not a piece of a QC which - if we knew how to wire it to the real world may do something) in the next episodes. The whole thing is content-free as far as i can see. And the couple of facts that are presented are actually wrong - for example Nvidia is already simulating c 1100 qubits (not just 100). And "quantum machine learning" ha ha ha. Once thing she is right about is that there are "billions of videos on the internet" about quantum computing. This is just another one.
The purpose of this course is actually exactly the opposite of what you claim. I think I was pretty clear that we are not interested in hype, nor forecasting the future. We are only going to describe what can be done with the quantum computers that exist right now, and how to do it.
Furthermore Nvidia cannot simulate 1100 qubits...this is physically impossible. The team is doing interesting work for sure, but directly from the website they state: "An NVIDIA DG A100 system with eight NVIDIA A100 80GB Tensor Core GPUs can simulate up to 36 qubits." As far as I am aware 36
Great content as always.
Thank you ❤
Thanks, I Deeply aprecciate this effort. Thanks
Gemini: This video is the first episode of a series called "Quantum Computing in Practice" by Qiskit. It aims to teach viewers how to use a quantum computer to its full potential.
The speaker, Olivia Lan, a researcher and educator at IBM Quantum, argues that quantum computers are entering a new era of usefulness. Previously, quantum computers were only useful for simulating small circuits. Now, with new advancements, quantum computers can outperform classical computers for certain tasks.
One reason why quantum computers are becoming more useful is that IBM has made quantum processors with over 100 qubits available. These processors are too complex for classical computers to simulate.
This course is designed for a broad audience, including those who already have a basic understanding of quantum computation and those who are new to the field. The course will cover how to create and run quantum computing jobs, error mitigation techniques, and potential application areas.
The speaker also briefly discusses the history of computation, noting that quantum computers are just the next step in a long line of advancements. Quantum computers are not meant to replace classical computers, but rather to complement them.
In the next episode, the speaker will discuss 100 qubit systems and how to interact with them using the Qiskit software development kit.
When will the second video be uploaded
I'll ask our producers to step on it.
is episode 2 out?
great series
Are we just gonna ignore how great the pun of (what is it good for)😂 were?
While I get that AI itself will benefit from quantum computing, aren't they kinda achieving many of the theoretical benefits we hope quantum computing will have already? Like protein folding for example. More and more theoretical benefits of quantum computing are being 'eaten up' by machine learning algorithms today. How do you see this?
LETS GOOOO OLANES!
Nice video
Thank you for this first episode!
I'm looking forward to the entire series.
Looking forward to lesson 2 for one month. Will you go on?
very shortly! Thanks for being patient.
I cant wait please
These are great
That was a great introduction for a subject that seems quite difficult to follow.
In the realm where particles dance and spin,
Entangled threads, where realities begin,
Quantum whispers, mysteries within,
A cosmic dance, where wonders grin.
Entangled pairs, in quantum's embrace,
Spinning in sync, through time and space,
Linked by laws, no one can erase,
A bond of mystery, in every case.
Quantum computing, a revolution's dawn,
Harnessing entanglement, where paths are drawn,
Bits of qubits, in states withdrawn,
Calculating realms, previously withdrawn.
Parallel processing, in quantum's domain,
Simultaneous pathways, a computational gain,
Solving puzzles, with quantum's reign,
A new frontier, where knowledge reigns.
Entangled threads, computing's key,
Unlocking realms, previously unseen,
In the quantum dance, where dreams convene,
A future bright, yet to be seen.
Great
When will be the next episode released? Waiting..........
so soon! Thanks for your patience.
❤@@qiskit
Where is 2nd episode
uploading tomorrow
@@qiskit thank you, can you please share the sedule
Love it.
please make this like a 1 month summer school.
Thanks for this content
Qiskit : *publishes video*
Also Qiskit : *makes it private*
WE SAW IT
😅
I really love this course, but, please make the English subtitles because my English skill is not that good to understand this video without subtitles. Thank You!
We will work on that!
we are so back!
SO back
Although watching about quantum in this year but not able to do anything and feeling bad about me in my future...🥴
I wish I can do online summer school in using 100 qubits. My tries so far are basically me blinding figuring out how they work and try to do my research on them. This course definitely will help!
Every computer is a quantum computer, computers compute the Quantity or Quantum of values.
Semi conductors of the computers in ROOM TEMPERATURE have reached their operating frequency's speed limit.
Transistors are ionic switches that with higher frequency of switching they get hot and create errors / noise.
The most practical way of cooling the processors is with Heat Sinks and Fans which we have been using.
Quantum Computers are the higher frequency computers with liquified gas cooling pipes. Concept and the technique of parallel processing is as old as the invention of IC (integrated circuit). We can connect multiple fan cooled regular computers in parallel to achieve the same performance of a Quantum Computer, all we need is a synchronization algorithm to compensate for network latency, same as the one for supper computers.
Warum sagt die Tussie nichts darüber, wie die
Entwicklung der Fehlerkorrektur bezüglich
des Verhältnisses von physikalischen zu
logischen Qbits verläuft?
Excellent :)
but guy, can we use quantum computing to make starcraft 3???
I'm a lady. And no.
@@qiskit Funny girl. And darn.
Silence. The. Hands. I have resorted to covering part of the window with another window to keep focused on her words and not the hand waving.
BILLIONS of videos on Quantum computers?
give or take
Si. Hay que meterse en el barro. Nada de teoría todo práctica.
I like how she has a certain tone of comedy to her lecture.
Thank you! Glad you enjoyed!
Hi
We got "Quantum Mommy" before GTA 6
"... and less sci-fiy"😂😂
I’ll be honest, I think QM computers are not going to have any advantage over classical computers. Believing so involves two things
1) that hyper computation is possible… that quantum computers can perform computation better than classical computation as outlined by Turing.
2) That if hyper computation does not exist that any computer can do what quantum computers can do.
Therefor, in order to believe quantum computers will work, means you must believe the universe is strictly stronger than a Turing machine, which means you’d be able to solve the halting problem which is nonsense. And if hypercomputation does not exist, then it means QC’s will never have an advantage over a Turing machine.
It’s a lose lose situation. If Turing taught us anything it’s that hardware doesn’t matter, we can just create instructions and feeding it to the same machine. It’s about algorithms, not hardware.
Don’t get me wrong, I’m not saying we shouldn’t build different computation structures to leverage nature’s properties to do computation, I’m just saying that there will just be no advantage.
good unbaised heristic video
just a fiction.