Комментарии:
This is hands down best beginner's guide to quantum computing. Most of the other videos I watched were very brief and not really going into the actual working. This gave me a very good intro knowledge about quantum computing. Thanks for the video, well done!
ОтветитьSo why is only 1 and 0 considered a state and not any point on the sphere?
ОтветитьIs presenter familiar with either, or, nand, nor.
Ответить,,, virtualization ...
Ответить,,, all technologies trend towards obliteration,, so ... .. . ...
ОтветитьCan the original person Alan turing story and his enigma mathematical equipment be used again made too function to find the missing equations the world first Decoder for languages and mathematic quantum sciences seems we think so can Alan Turing and his work on mechanical automation bringing AGI to the for front being the goals through the use of the teairs and levels of automation like used in the building of Robots first hand then Droid's then androids with efforts to humanity safety first then over time move to cybernetics human biologicals bonding machines to our DNA through nano tech nano new Health Care genetics people super DNA 🧬 let's put the crisper in you in the form of nano bots 🎉 Cyber-people are the future just think no More illnesses no more core stresses about your Health no more degradation of your Bodies stop ageing or at least slow the degradation we have the technologies we can rebuild molde mobilize you too earn your citizenship today
Ответитьcan u make yoour maps in other languages? if it already exists, where can i find it?
ОтветитьWhich field i have to go t0 become quantum computting scientist
ОтветитьDid someone say... drugs?
ОтветитьSo basically, what I get out of this is that classical computers ( our normal every day computer), you type in the question to get the answer. With the quantum computer you try to figure out the question for your answer! Or am I wrong?
ОтветитьHey! Would you consider doing a "Map of Condensed Matter Physics"? It seems to be one of the most diverse fields and it's really hard to get a grip on all of it!
Ответить{неплохой ролик
ОтветитьOne day I will be able to inject a quantum computer subcutaneously to manipulate my teleons and add 100 years to my life ❤❤
ОтветитьNice sweater. What brand is it?
ОтветитьHello. Great video. My question is, how can we "see" the results from quantum computers? You have different technologies to create qubits and calculations... But I Find kind of difficult to see the answer from any quantum computer.
ОтветитьI'm a hvac tech looking to switch trades what advice can you give me
ОтветитьOk, AI encrypted every human being on this planet identity, all banking systems, all financial transactions, THEN BOOM! IT GOES DEAD! THEN WHAT?
ОтветитьWhat's best programming languages for quantum computers? How do you even write firmware to a quantum computer?
ОтветитьRace to set standards?
ОтветитьDespite what Richard Feynman said, I'm actually ( to a point),able to(somewhat) understand your very clear and well said explanations. Thanks.
Ответитьmy shit over Russian and Iranian flags
ОтветитьHow about map of hacking.
Ответитьmore questions.. how is entanglement created? what changes the probability of the superposition? and more to come..operating system for quantum computers.
ОтветитьAPPPEE MAKES GARBAGEE
ОтветитьQuantum scam!
ОтветитьSomething I'm still confused about is how the waveforms generated from quantum Interference are distinct from the waveforms generated by analog computers? It seems that, counterintuitively, there's some benefit to the fundamental uncertainty of quantum systems but I'm still lost on what exactly that is.
ОтветитьYou make me feel like I'm smart for understanding but in reality, you're just really good at explaining xD Brilliantly put and thanks for the video!
ОтветитьI don’t understand in the physical relations ,how does a lazer make a quibit by hitting an atom or something like that . I don’t understand that lol
ОтветитьFor antigravity.
For nanotech.nanotechnology.
For time travel.
For bianary to trianary conversion set sequencing.
I deeply appreciate your efforts in creating this outstanding educational video. Watching this 30-minute presentation on Quantum Computing was truly enlightening, and your delivery exudes professionalism. Well done!
ОтветитьI know now, why my dog tilts his head when I talk to him
ОтветитьI dont know anything about quantum computing nor quantum science but this made me understand a lot. Amazing!
ОтветитьTHIS IS ABSOLUTELY AWESOME ‼️‼️‼️
Ответитьquantum computing
ОтветитьI can definitely see how Simulations of Molecules would be easier facilitated by a Quantum Computer. Very cool videoon quantum computers, this one has been my favorite so far.
ОтветитьHow quantum computer crack bitcoin? How soon will it be happened in future? Can bitcoin migrate to quantum resistant?
Can anyone explain this? thanks!
Since the wave function is reversible and the wave function collapse is irreversible, quantum encryption can take place via if the packets are observed via exchanging a quantum key.
ОтветитьSo all of reality could be changed?
Ответить20231006_Fri:::
(((6Quantum^R-Computing-(TheMapOf_QC)-33_27)))
Thanks for the map.
I also have my compass.
Lets go!
Mike W. Wagner, Bachelors of Mechanical Engineering, Masters of Computer Science
Does the Riemann hypothesis have to do anything with this factoring problem? Like if it was true then factoring would be easier or some s***
ОтветитьQuantum computing operates on principles of quantum mechanics, allowing for processing information in quantum bits or qubits. Unlike classical bits (0 or 1), qubits can exist in multiple states simultaneously due to superposition. This enables parallel processing and exponential speedup for certain calculations.
Key components:
1. *Qubits:* Basic units, leveraging superposition and entanglement.
2. *Quantum Gates:* Similar to classical logic gates but operate on qubits, manipulating their states.
3. *Entanglement:* When qubits become correlated and the state of one qubit influences the state of another, even at a distance.
4. *Quantum Superposition:* Qubits can exist in multiple states simultaneously, exponentially increasing computational possibilities.
5. *Quantum Interference:* Utilized to enhance correct outcomes and reduce errors in quantum computations.
6. *Quantum Circuits:* Sequences of quantum gates performing computations.
7. *Quantum Algorithms:* Specialized algorithms exploiting quantum properties for tasks like factoring large numbers (Shor's algorithm) or searching unsorted databases (Grover's algorithm).
8. *Quantum Cryptography:* Leverages quantum properties for secure communication, e.g., quantum key distribution.
Challenges:
1. *Decoherence:* Qubits are sensitive to their environment, leading to loss of quantum properties.
2. *Error Correction:* Quantum error correction is crucial due to the fragile nature of qubits.
3. *Scalability:* Building larger, more stable quantum computers remains a significant challenge.
Companies and Research:
1. *IBM Quantum:* Pioneering quantum research and accessible quantum computing through the cloud.
2. *Google Quantum AI Lab:* Developed the quantum processor Sycamore, claiming quantum supremacy in 2019.
3. *Microsoft Quantum Development Kit:* Focused on quantum programming languages and tools.
4. *D-Wave Systems:* Known for quantum annealing, a distinct approach to quantum computation.
5. *Startups:* Various startups like Rigetti, IonQ, and others contribute to quantum computing advancements.
Understanding the quantum landscape requires familiarity with quantum mechanics, linear algebra, and specialized quantum programming languages like Qiskit, Cirq, or Quipper. The field continues to evolve, with ongoing efforts to address challenges and unlock the full potential of quantum computing.
I'm a pessimist. I say, "Screw Schrodinger... the damned cat is dead!"... ;-P
ОтветитьCould you give an Update on this one? :D
ОтветитьΥοu do great job !!!
ОтветитьI must admit Illustration presented in this video are Excellant and allows to graspe Quantum Terms more quick n easy, more transparent way, although I have been banging my head with IBM since 2009 still couldn't get my head around, until this video. Thanks "Domain of Science"
ОтветитьI’m curious, roughly how long would it take for a traditional supercomputer to run shor’s algorithm? I’d imagine it’d have something to do with the computer’s FLOPS divided by the number of possible outcomes, if it was even physically possible at all.
I’m not good enough at math, computer science or quantum physics but 1,000,000 QuBits seems like a truly gargantuan amount of power, seeing as (iirc) just 100 QuBits would be more powerful than every non-quantum computer on earth combined, and even the most breathtakingly optimistic plans for future QCs are “only” about 10,000 QuBits…
I’d guess that calling a guess of “longer than the lifetime of the sun” an understatement would itself be an understatement, but idk if it’d be less than the predicted time before the heat death of the universe.