@KarenStone73204
I'm a Biochem undergrad and I'm designing my first QM simulations for a simple proton transer reaction and it's wild how much computation is needed simulate just a couple dozen atoms. It's fun to think about the potential of quantum computers for simulation of enzyme and drug interactions with high accuracy. I hope to see it in my lifetime.
@nik-ix2md
amazing explanation as usual! I am doing a Ph.D. in quantum physics and your videos often help me a lot to get the bigger picture in an enjoyable way!
@busterdafydd3096
6:20 driving down error rates is not to different from the early classical computers, as making electronic switches that truly turn off and on and not half off or on was hard until CMOS and now we are just working on lowering the voltage threshold for off or on. when we used valves in circuits, each switch (valve) needed 12v for on state and changing between on and off didn't work as fast but also we weren't allowed to turn them off completely to ensure they didn't break so we transitioned between 6 and 12 volts for on and off so a lot of power draw and heat. Qubits have the problem of making there continuous variable output is the same every time with the same input. And doing that is very hard, because checking that requires very precise instruments
@Boedie
π― Key Takeaways for quick navigation: 00:01 π§ͺ Quantum simulation is a promising application of quantum computers that allows us to investigate new materials with novel physical properties, potentially leading to revolutionary technologies. 02:06 π Superconductivity, a phenomenon with zero electrical resistance, is one example of a material property we want to explore further, aiming to find room temperature superconductors for practical applications. 03:56 π οΈ Quantum simulation can accelerate the search for valuable materials by exploring vast combinations of elements, as well as their interactions in chemistry, overcoming limitations of classical computational methods. 07:30 π’ Classical computers can simulate quantum systems, but the exponential increase in complexity with more particles makes quantum simulators, in theory, exponentially faster for solving quantum physics laws accurately. 09:23 π₯οΈ Quantum simulations are already running on real quantum computers, with accessible platforms like IBM's open to the public, enabling users to experience and learn about quantum physics hands-on. 11:12 π The development of universal quantum computers is progressing rapidly, with companies aiming to build systems with over a thousand qubits by 2023 and potentially over a million qubits by 2030, opening doors to solving practical problems beyond classical capabilities. Made with HARPA AI
@diogoledermann7393
THAT'S AMAZINGG!! QISKIT HERE I COME! This is kinda of what I want to do for a living... Studying quantum physics... programming... Hell yeah
@martinmauser5042
Fist of all thanks for the great explanation video! I just want to add that you actually can't create a computer that produces no heat at all because erasing information, which we frequently do during computation, produces heat (according to Landauer's principal).
@bigredmaniac6670
Was there a reference to Stardew Valley in the fertilizer chart?
@jserien08
You combine the knowledge and the capacity to explain. Frankly, thumbs up !
@JeremyChone
So dense, so well articulated, and nicely visualized. Thank you!
@sandhyabharathkumar846
Thank you so much for your video and sharing info about Qiskit. This video was real morale booster, that I can soon pursue my PhD in this field after a long break
@MattiaConti
I'm very excited to see another video of Dos - cit from a random electron
@busterdafydd3096
11:20 modern computers have over a 125 kilobytes of memory in processor cache, so to ask for 125 kiloqubytes shouldn't be to much to ask for by 2030
@prateekgupta2408
His voice is so calming
@splch
this is such a great video :) qiskit is a wonderful community and place to learn about the future of computing βΊοΈ
@jac001
I love your videos, your providing a much needed service of clear explanations to complex subjects, thank you!!
@umbertofalvo
Turns out it was 4 years till a quantic processor came out
@elonmusk8245
What happened Dominic? another AWESOME video in the same week? how come?!?! thank you so much
@MarkRLeach
Love your physics... not so impressed by your chemistry, however. What is O2N2 at 5:00 min? The Haber process is N2 + 3H2 -> 2 NH3.
@SufalDeb
Great video to inspire young minds into the fields of quantum computing and more
@lumanaughty1025