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Great simple explanation of how quantum computers work vs classical computers.
After session quiz.Name the 3 breakthroughs explained in this session.
Look, my point is, this is a good session but I think it does not take into account how people consume info on the medium it was advertised on. In the end, I learned more about quantum mechanics than Microsoft contributions on it. May be you should just provide a list at the end. You know, remind the viewer about what is great, and what is special.
All this lingo about quantum computing is beyond me but fascinating to hear all about it.
Big thanks to Dr. Krysta Svore (and Jeremy) for a very informative session. I've added this video to my crash course list of "Quantum Computing" videos that I've been listening/watching in loops! I'm currently scheduled to attend some lectures, so I'm seriously brushing up on my QC stuff to make myself look less like an idiot than I normally am. 🙂P.S. As a video that built as an intro about Quantum Computing plus MSFT's contributions to the field, may I be frank and make a suggestion? Part of me thinks like a computer scientist (instead of an MBA) and feels Krysta could/should have mentioned those working QCs. Yes, I mean those D-Wave 2000-Qubits Quantum Computers just for the sake of completeness. Correct me if I'm wrong, when MSFT/IBM, etc etc are years away from working QCs, not mentioning working Quantum Computers actually exist NOW, to me, kinda turn this otherwise excellent informative video into merely a MSFT marketing video. I expect more from MSFT. To me, science, computer science and facts must come before marketing.
amazing …so the gen Sequencing will be solved in fraction of second ohhhhhh , this will revolutionize health care and this what I was thinking about long long time ago , well done
All guys in the audience?
10^300…. dammit man. Amazing.
Cool, looking for more videos -)
The binary states of 0 and 1 can be divided into many qubits, storing and computing many problems simultaneously. Our brain employs QC resulting in simulation of intelligence and consciousness.
what are the computational limits of the topological qubit? is it limited to annealing and optimization problems like the dwave or does it open the full theoretical spectrum of q computing?
wonder can we write assembler language or low level c language
How do you know the topological qubit is so robust against noise, if it wasn't obtained experimentally? It is pure theory.
Thank you for this upload
Is the information transfer between entangled particles instantaneous?
What if something happens to q2 and q1 at the same time?
Great for people beginning to study Quantum computing and people teaching themselves Quantum Computing(such as me).
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