At 37:15, on his slide, "2. Use phase estimation: \sum \beta_i |v_i> \\lambda_i>", the presenter skips (or forgets) to explain or introduce what the state |\lamda_i> is. This was a very good presentation though. I was following intently and wished the explanation was a bit more thorough on this slide.
Tq for the class, actually need more then basic algorithm quantum to dealing with super quantum machine.by theory after bit on super position,2 bit on critical dimensions can go to super critical and critical hit .🌝🌚💫🌝🌚 Wallahuaklam
His algorithms presented did not consider entanglement. Searching for good rather than bad solution with polynomials, or periodic functions emphasize the "analog," solution to the problem, without considering entanglement. Emphasis on Fourier transforms would decipher the period ignoring the entanglement factor. Otherwise, the algorithms appeared to provide some indication of what quantum computing may accomplish.
good presentation bro, helped me with my project on quantum computing
Really helpful. Many thanks for this presentation.
At 37:15, on his slide, "2. Use phase estimation: \sum \beta_i |v_i> \\lambda_i>", the presenter skips (or forgets) to explain or introduce what the state |\lamda_i> is. This was a very good presentation though. I was following intently and wished the explanation was a bit more thorough on this slide.
Nice presentation. At 33:58, you said, state b can not prepared for some cases. Can you explain the reason.
A master quantum algorithm would revolutionize the classical computer this consept has way more prize in the moment than a quantum computer
Tq for the class, actually need more then basic algorithm quantum to dealing with super quantum machine.by theory after bit on super position,2 bit on critical dimensions can go to super critical and critical hit .🌝🌚💫🌝🌚 Wallahuaklam
If you have some background knowledge it's a very good lecture. Definetely not for beginners
crowd was dead bro
shit was lit fam u weren't there
Great
His algorithms presented did not consider entanglement. Searching for good rather than bad solution with polynomials, or periodic functions emphasize the "analog," solution to the problem, without considering entanglement. Emphasis on Fourier transforms would decipher the period ignoring the entanglement factor. Otherwise, the algorithms appeared to provide some indication of what quantum computing may accomplish.
alpha code arte
Weird comment about drug dealers 😂 🤔