Thanks Olivia! This inspires me to dive deeper into what has already been discovered about QCs simulating room acoustics and QCs in audio synthesis. In both we still need to simplify a lot as we quickly run into the limits of classical computers.
Simulating Hadron wave packets the 'vaccum' state in here refers to Quantum vaccum and not the classical vaccum like absence of matter ? Wave packet represents the localized quantum state of group of particles? or Question is this is an input pulse? This is much in depth, and it took me amonth to come up with those questions, thank you Olivia for making the course much more challenging.
Yeah, I think this is of importance for the general public. It does not understand how quantum computing is "very useful" from a scientific perspective, but "mostly useless" from a "normal" perspective. Try to explain to anybody why he can run "Doom" on his vacuum cleaner, but not on a quantum computer.
Is it a mere coincidence that integer factoring, discrete logarithms and elliptic curves are in BQP? Or do you believe that BQP is like an iceberg with many more problems waiting to be discovered?
My high-altitude venture around the fusion of floriculture, apiculture and agroforestry presents unique challenges, like intense weather conditions and temperature fluctuations, which affect plant growth. Could quantum simulations help us understand how these environmental factors influence things like photosynthesis and chlorophyll fluorescence at a molecular level? Could this lead to the development of more resilient plant varieties?
It was a nice briefing about Quantum computing. I love to learn about the brain of Quantum computer in practical which is IBM's microchip. How do engineers build Qubits for microchips. I couldn't find a documentary that explains about microchips in detail. I use to work on robot manually to control it from control panel, because the robot didn't work automatically due to some technical issues. I learned it in one hour how to control a robot manually despite zero experience in technology and computer. Is it possible to learn and to build a powerful IBM microchip for Quantum computer without high school diploma 😉? Because I have no degree, but I love Quantum Mechanical Engineering. There are some questions I need to ask about Quantum Mechanics and Ervin Schrodinger's equation and its paradox of zombie cat in next episode. Thank you for nice lecture doc.
@@qiskit I agree, thought I'd ask though. Presently QC is in its research phase. No profit is being made because money is coming from government funding (taxes), and venture capitalists... money is not coming from sales as there's no manufacturing of actual QC's. I don't see QC as a personal desktop model, rather corporations will build them and offer usage through a subscription service for medicine, cryptography, physics, materials of science, economics, system simulation & modeling, and other venues where digital computing will fail. QC will be an institution-to-institution relationship. Corporations and Academia will be primary users. Right now QC is not reliable and repeatable, it's a concept needing to be realized. 😊
@@qiskitJodeph Schumpeter! Creative destruction! Even if it is the case that new tech eliminates jobs, it is also probable that entrepreneurs will create new ones.
Hi, OLIVIA. Can a Quantum computer solve my question? " can it prove that the number of the star in the area of space is infinity? " OR " 0 < 3.1416 "? mathematically.
@@qiskit so CERN was a person not just a waste of money. and not life saving doc just math doc , not real the same thing if can not work a steamer ,(shirt)
probabilistic problems and those that are inherently non-deterministic. Randomness is what quantum computing will excel at. even though absolutely perfect random results are still not achievable, quantum computing will help increase the randomness and model random systems. weather problems and market analysis will be good. perhaps even for generating highly randomized weights for neural networks.
@@qiskit I want to try too, I'm going to do a master's degree in quantum computing after I finish my bachelor's in computer science. Thank you so much for you content about Quantum Computing!
@@alexsandrotabosa4461hi I'm so confused between moderne physics bachelor or computer science and engineering bachelor I want to complete In quantum computers !!
I think so yes,. I don't actually recall the NP-Hard problem very well though. But the advantage quantum has over classical is the ability to represent 2^N superposition per q-bit in quantum memory. So you can statically represent the position of everything in the observable universe simultaneously in quantum memory with 100 q-bits. Classical computers can theoretically do the same thing. But the tradeoff comes from powering the classical stacks in parallel, which quickly become unfeasible.
Non-invasive nueral computation a small scale version could have application in determining cognitive composition over a duration leading to potential discovery of subconscious bias perhaps
To be more practical, consider these options as new or existing vectors where quantum computers are useful: > to model a beautiful city with ergonomic architecture and the most efficient infrastructure > completely deciphered human genome to heal and regenerate even large parts of the human body > establishing a neural snapshot of an organism to read the meaning of higher dimensions > to build new ultralight carbon alloys and other compounds that would allow us to go into outer space and travel autonomously for a long time > create new super-powerful laser or spacecraft engine for communication and travel to the nearest galaxy > to reimagine and order all existing studies into one metascience framework, including new forms of math and physics > to resolve the meaning of dark energy and matter maybe functioning as a turgor for the whole universe, so fermions are more like manifestation of integral evolution > to model climate change machines to fix the global warming > global energetic system without utilizing garbage (global green energy and automatic recycling) > to build antigravity engine > solving equations to discover parallel universes > find an approach to revert back the flow of changes in matter through time (local time travel) and so on
Thank you very much. Appreciate the IBM Quantum Education team and especially Dr. Olivia for creating educational videos such as these.
Thanks Olivia! This inspires me to dive deeper into what has already been discovered about QCs simulating room acoustics and QCs in audio synthesis. In both we still need to simplify a lot as we quickly run into the limits of classical computers.
Have you considered dual tapered microwave buses between qbits to get better impedance matching between qbits as this may eliminate errors?
Simulating Hadron wave packets
the 'vaccum' state in here refers to Quantum vaccum and not the classical vaccum like absence of matter ?
Wave packet represents the localized quantum state of group of particles? or Question is this is an input pulse?
This is much in depth, and it took me amonth to come up with those questions, thank you Olivia for making the course much more challenging.
Very useful, thank you much Olivia!
Yay, somebody discusses the actually relevant problems. Thanks!
Yeah, I think this is of importance for the general public. It does not understand how quantum computing is "very useful" from a scientific perspective, but "mostly useless" from a "normal" perspective.
Try to explain to anybody why he can run "Doom" on his vacuum cleaner, but not on a quantum computer.
Does QAOA solve the TSP dor 3 city problem without the VQE. Because i tried and everytime it gives a random answer. Could you suggest whats wrong
QAOA and VQE are separate algorithms.
Can we use quantum entanglement clocks to solve the one way speed of light?
no
Why?
@@qiskit why please answer
nothing travels faster than the speed of light. entanglement doesnt change that.
Is it a mere coincidence that integer factoring, discrete logarithms and elliptic curves are in BQP? Or do you believe that BQP is like an iceberg with many more problems waiting to be discovered?
We expect to discover more use cases in BQP in the future.
My high-altitude venture around the fusion of floriculture, apiculture and agroforestry presents unique challenges, like intense weather conditions and temperature fluctuations, which affect plant growth. Could quantum simulations help us understand how these environmental factors influence things like photosynthesis and chlorophyll fluorescence at a molecular level? Could this lead to the development of more resilient plant varieties?
...maybe? Remember we are in the early days of developing this technology!
Continue being amazing, you can do it!
"thats why this is research" sometimes it won't pan out i agree why do those jobs pay among the highest rates though lol kind of ironic.
It's really pretty simple. Because it's very hard and there are very few people who can do it. Thats how economics works.
It was a nice briefing about Quantum computing.
I love to learn about the brain of Quantum computer in practical which is IBM's microchip. How do engineers build Qubits for microchips. I couldn't find a documentary that explains about microchips in detail.
I use to work on robot manually to control it from control panel, because the robot didn't work automatically due to some technical issues. I learned it in one hour how to control a robot manually despite zero experience in technology and computer.
Is it possible to learn and to build a powerful IBM microchip for Quantum computer without high school diploma 😉? Because I have no degree, but I love Quantum Mechanical Engineering.
There are some questions I need to ask about Quantum Mechanics and Ervin Schrodinger's equation and its paradox of zombie cat in next episode.
Thank you for nice lecture doc.
Thanks for this 🙇
Quantum computing... will it be jobs creator or job eliminator? What types of jobs will QC most likely eliminate and which will it most likely create?
I dont see how it is going to eliminate jobs.
@@qiskit I agree, thought I'd ask though. Presently QC is in its research phase. No profit is being made because money is coming from government funding (taxes), and venture capitalists... money is not coming from sales as there's no manufacturing of actual QC's. I don't see QC as a personal desktop model, rather corporations will build them and offer usage through a subscription service for medicine, cryptography, physics, materials of science, economics, system simulation & modeling, and other venues where digital computing will fail. QC will be an institution-to-institution relationship. Corporations and Academia will be primary users. Right now QC is not reliable and repeatable, it's a concept needing to be realized. 😊
@@qiskitJodeph Schumpeter! Creative destruction! Even if it is the case that new tech eliminates jobs, it is also probable that entrepreneurs will create new ones.
Thank you..
Thanks doc.
Crisp and clear
Hi, OLIVIA. Can a Quantum computer solve my question?
" can it prove that the number of the star in the area of space is infinity? " OR
" 0 < 3.1416 "? mathematically.
no.
@qiskit can you explain plz?
I encourage you to watch the video.
what is the picture of in the top left conner , be hire her , and who dose she look like ?
It is a picture from CERN.
And she looks like Dr. Olivia Lanes.
@@qiskit what? this dose make senses
@@qiskit so CERN was a person not just a waste of money. and not life saving doc just math doc , not real the same thing
if can not work a steamer ,(shirt)
i think this was a not nice thing to say , sorry
can i get a heart please
Okay, but the most important question, How many fps does it give on GTA 5 and Valorant?
probabilistic problems and those that are inherently non-deterministic. Randomness is what quantum computing will excel at. even though absolutely perfect random results are still not achievable, quantum computing will help increase the randomness and model random systems. weather problems and market analysis will be good. perhaps even for generating highly randomized weights for neural networks.
6:25 what happened hahahah
What about stem cell research? Wink Wink.
Can the quantum computer solve any NP-Hard problem one day?
There's no proof they will solve them in a general or guaranteed efficient way. But that doesnt mean we're going to stop trying.
TLDR; we dont know!
@@qiskit I want to try too, I'm going to do a master's degree in quantum computing after I finish my bachelor's in computer science. Thank you so much for you content about Quantum Computing!
@@qiskit hi I'm so confused between moderne physics bachelor or computer science and engineering bachelor I want to complete In quantum computers !!
@@alexsandrotabosa4461hi I'm so confused between moderne physics bachelor or computer science and engineering bachelor I want to complete In quantum computers !!
I think so yes,. I don't actually recall the NP-Hard problem very well though. But the advantage quantum has over classical is the ability to represent 2^N superposition per q-bit in quantum memory. So you can statically represent the position of everything in the observable universe simultaneously in quantum memory with 100 q-bits. Classical computers can theoretically do the same thing. But the tradeoff comes from powering the classical stacks in parallel, which quickly become unfeasible.
I am going to apply for ibm quantum research intern but not idea how to show case what all I know in my resume please tell things for that also
Hello.🌈Merci Olivia🌺smart image! Happiness to you🌍💫
Non-invasive nueral computation a small scale version could have application in determining cognitive composition over a duration leading to potential discovery of subconscious bias perhaps
a
Maybe Quantum Computing can do better election polling ... LOL... NOT.
Olivia, don't waste your time on quantum computing. It will never go anywhere.
The team of brilliant scientists behind me says otherwise but thank you random man on the internet
perfect answer @@qiskit
@@qiskit heheheheh
Wild take on a qiskit video
@@qiskitfabulous 🤩
To be more practical, consider these options as new or existing vectors where quantum computers are useful:
> to model a beautiful city with ergonomic architecture and the most efficient infrastructure
> completely deciphered human genome to heal and regenerate even large parts of the human body
> establishing a neural snapshot of an organism to read the meaning of higher dimensions
> to build new ultralight carbon alloys and other compounds that would allow us to go into outer space and travel autonomously for a long time
> create new super-powerful laser or spacecraft engine for communication and travel to the nearest galaxy
> to reimagine and order all existing studies into one metascience framework, including new forms of math and physics
> to resolve the meaning of dark energy and matter maybe functioning as a turgor for the whole universe, so fermions are more like manifestation of integral evolution
> to model climate change machines to fix the global warming
> global energetic system without utilizing garbage (global green energy and automatic recycling)
> to build antigravity engine
> solving equations to discover parallel universes
> find an approach to revert back the flow of changes in matter through time (local time travel)
and so on
almost none of these are real use cases unfortunately.