It does matter how the Qubits are entangled at the beginning as that is precisely what will effect the eventual correlations. See, this is what everyone ignores and partially why the Bell Inequality is not a valid statement.
@bustercam199День тому
The Bell inequality is complete rubbish as it neither supports a quantum view nor shows any proof of entanglement. Einstein was likely correct, and the problem needs to be revisited in the search for local hidden variables theories... Clearly, the Nobel committee made a mistake.
@agustinguzman6375День тому
Is Sheldon watching this video?
@mahmudashikДень тому
eto boi kemne pore bhai.......................................
@HussainShaik-hl9cuДень тому
cannot import name 'pauli' from 'qiskit.quantum_info' !!!!!!!!!
@TheJDieJ2 дні тому
Amiri
@ValidatingUsername2 дні тому
Imagine it came from a similar phenomenon as the double slit experiment and why sun rays have weird angles under clouds 😊
@dissaid2 дні тому
Thanks Guys...
@hartmut-a9dt2 дні тому
Very nice
@HussainShaik-hl9cu2 дні тому
Do we have to execute 'conda install pip', ' pip install qiskit', 'pip install jupyter' everytime we start a machine (windows)?
@viosc91672 дні тому
It is another confirmation of the fact that we are in a digital simulation - see Thomas Campbell work
@GavinM1613 дні тому
Was the matrix described @24:02 correct on the screen? Didn't seem to tie up with what was being said.
@victoradeyemi7843 дні тому
Thanks for the awesome introduction, Ma'am. I remain highly expectant for the next.
@abirmaheshwari3 дні тому
<qiskit.circuit.instructionset.InstructionSet at 0x26aeddee080> how I can resolve this ? please help.
@raktoda7073 дні тому
Thank you
@PennDraken3 дні тому
Note: cu1 is deprecated use cp instead!!!
@AndrewGorby3 дні тому
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.
@user-ns4wz3dl7z3 дні тому
It was all great as always, but I have only question about this formula just want to know from where it derives |ϕ_b⟩ = (1_A ⊗ ⟨b|) |ψ⟩
@jay_wright_thats_right3 дні тому
If only I can understand her chicken scratch. I love whiteboarding and handwritten teaching BUT...if you don't have good penmanship then have someone write for you.
@merlin60323 дні тому
If I succeed my exams it will definitely be thanks to you. You made me understand quickly many concepts I struggeled to figure out before. Thank you for all your work in making this complex subject a little bit more accessible !
@GavinM1614 дні тому
Great video and as Jerry says, an exciting time at IBM. Glad to see Big Blue is still at the cutting edge of not only research but proper engineering too.
@GavinM1614 дні тому
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.
@truecerium49244 дні тому
Your explanations are always easy to follow even when they lead into the abyss of reality. Please allow 2 questions (and perhaps somebody else in the comments can make useful remarks to it: a) would the full range of solutions be -2.8 <= -2 <= (A,B) <= 2 >0 2.8 or do negative values need to be included; b) that you can save locality and realism as one has a theory how values x and y are related, I don´t need to know what the 2nd party/Bob measures, I introduce one value and the theory: value x and y is a function of x so y = f(x) which allows me to deduct the value Y w/o having it ever measured (sth analog to Maxwell´s demon in TD?)
@user-db1vp2st5y4 дні тому
Your recommended for . Toilet papers
@ButchCassidyAndSundanceKid4 дні тому
is this the last in the series ?
@qiskit4 дні тому
yep this is the season finale
@ButchCassidyAndSundanceKid4 дні тому
@@qiskit Shame I started to enjoy it.
@nickhake5924 дні тому
Try to talk without ending the sentences witaut annoying knarring
@livlanes4 дні тому
Try to learn how to spell correctly and I'll consider it
@MikePaixao4 дні тому
Why is a thought experiment not enough? It's well thought out and follows the simple rules of the universe. 😊
@qiskit4 дні тому
you cant collect data from a thought experiment.
@MikePaixao4 дні тому
@qiskit and yet I did 🤔 funny how what you think doesn't actually matter 😶🌫️ someone is probably watching, but you can't see him either right?
@fountainhead4 дні тому
fantastic explanation!
@vardhan2544 дні тому
35:41 FOR QFT
@isaijeanmary9574 дні тому
I am Isai, I follow this course... really clear and neat teaching of a such complex topic...
@vasiliostheodorou48494 дні тому
Could I say that quantum mechanics is like searching for the reflection (realisation) of an imaginary world? Is part of that imaginary world a frequency value, amplitude, phase, under minute thermal fluctuation controlling the value states of the particle?
@letsfixthebrokenscience48634 дні тому
If you do not have in your team but at least one American J. you never get a Nobel prize. Nikola Tesla Describing Quantum Entanglement In 1891. “Nature has stored up in the universe infinite energy. The eternal recipient and transmitter of this infinite energy is the ether. The recognition of the existence of ether, and of the functions it performs, is one of the most important results of modern scientific research. The mere abandoning of the idea of action at a distance, the assumption of a medium pervading all space and connecting all gross matter, has freed the minds of thinkers of an ever present doubt, and, by opening a new horizon-new and unforeseen possibilities-has given fresh interest to phenomena with which we are familiar of old. It has been a great step towards the understanding of the forces of nature and their multifold manifestations to our senses. It has been for the enlightened student of physics what the understanding of the mechanism of the firearm or of the steam engine is for the barbarian.” -Nikola Tesla “Experiments With Alternate Currents Of Very High Frequency And Their Application To Methods Of Artificial Illumination.” Lecture delivered before the American Institute of Electrical Engineers, Columbia College, N.Y., May 20, 1891.
@girlie4264 дні тому
Will there be other videos soon?
@failure025375 днів тому
it would be nice if examples existed for once
@failure025375 днів тому
9:37 why would a conjugate exist 1)these are two different variables with two different notations
@claritas65575 днів тому
There is a term used to describe that speech affectation which plagues even geniuses like this young lady. It is 'Vocal Fry' and is one of many bad habits Americans have invented in recent years.
@viddeshk80205 днів тому
Nice 👍
@shikharsrivastava50575 днів тому
Thanks for amazing video. I have 1 doubt: In our Quantum Circuit, we have not included measurement step for control qubit, target qubit and storing result to cr3 register. But at the end, during post processing, we had used cr3 register. How compiler is sure the results are stored in cr3? When I included these steps, I also had to put i in place of i+1, i.e. in post processing step I put data=result[i].data in place of result[i+1].data. Then program worked. Can you explain it?
@DerekWangIBM4 дні тому
Thanks for pointing this out. We should have stored to the cr3 register, and then you should put i instead of i+1. I have updated the notebook in the GitHub to correct this.
@shikharsrivastava50573 дні тому
@@DerekWangIBM In the video, circuit was for odd number of qubits. Is it possible to get corresponding dynamic circuit for long Range CNOT in even number of qubits?
@DerekWangIBM3 дні тому
@@shikharsrivastava5057 It seems you can remove the first ancilla qubit (qubit index 1 in the whole circuit), making sure to connect the control qubit (qubit 0) to the second ancilla qubit (qubit 2 before, now qubit 1) with a CNOT. On the ancilla qubit, I think you will keep the measurement followed by controlled-X gate on the target. Try that?
@shikharsrivastava50573 дні тому
@@DerekWangIBM Thanks. That worked.
@ruans.p.53235 днів тому
Qiskit bro is back!
@toobaqasim33005 днів тому
I am looking for BB84 simulation on Qiskit.
@AlexanderNachtigall5 днів тому
Awesome Derek, a fantastic Qiskit Intro! Well done and keep going compiling the tutorials in the same style... really appreciated the condensed and swift walkthrough the code and step by step instructions... 👍
@user-ff9tc3zp9s5 днів тому
I am a first-year university student in Japan, and I recently became interested in quantum computing after watching videos of IBM's researchers. I hope to specialize in quantum computing and work at IBM in the future. Since my university only offers classes in Japanese, these videos are truly invaluable to me. I plan to study abroad extensively to improve my English skills and fulfill my dream. Thank you very much, Professor John Watrous. I look forward to the next video!
@DasIstDragana6 днів тому
Great talk! Thank you!
@benjaminbeard37366 днів тому
I thought statistical independence was the third assumption?
@paratracker6 днів тому
This would be a much richer post if you explained the terms in ⟨S1⟩∣=∣⟨AB⟩−⟨Ab⟩+⟨aB⟩+⟨ab⟩∣≤2, why three are additive and one subtracted; could any single term be subtracted, if not, why THAT one? Why not some other arrangement? What's the meaning of the terms and the equation? 2.8 is obviously 2* sqrt(2), but you didn't think that was noteworthy?
@hassegreiner96756 днів тому
I wish she'd just use her natural voice ....
@federicocomparsi39416 днів тому
Actually, there is no 'realism' assumption in Bell’s theorem. This is a very incorrect presentation of the theorem. The only mathematical assumptions, in addition to 'local causality,' are ‘dichotomic outcomes’ and ‘statistical independence’. This is why it is possible to violate Bell’s inequalities by exploiting detection and memory loopholes.
@ramitamondal91656 днів тому
So did anyone manage to get a job?
@DrRajeevTyagi6 днів тому
keenly looking forward to the next episode (is there going to be one? or, do we go back to the current lengthy ones!)