No, they both very much share something in common. Money and resources, that could otherwise be invested in trying to actually fix the world’s problems.
What are they gonna do with a quantum computer, cure cancer? Then by the time the scientists get to check out the results, the results done got corrupted because of pathetic memory integrity, and it somehow managed to create a new type of cancer with the corrupted results…
Ya know, as much hype as there has been for the idea of quantum computing, I haven’t even so much as seen a snippet of source code for it to even say Hello World.
Even if that’s not exactly what these machines are meant for, seriously, where’s even a snippet of code for people to even get a clue how (and if) they even work as they’re hyped to be?
Nobody sees what they don’t look for. This is seven seconds of using duckduckgo with the following query : “what does code for a quantum computer look like?”
I don’t pretend to understand this, as I’m not a computer scientist, even less so a quantum scientist. Quite honestly, if you allow me a bit of criticism, I think you’re interacting with this whole topic in bad faith. Moving goalposts, obviously not doing any kind of documentation effort before criticizing an entire field of research, claiming that development efforts should go towards some vaguely defined “fixing the world problems”…
Pulling a serious comment from your third link only reinforces practically everything I’ve been getting at…
“The problem of showing a ‘hello world’ of quantum computing is that we’re basically still as far from quantum computers as Leibnitz or Babbage were from your current computer. While we know how they should operate theoretically, there is no standard way of actually building a physical quantum computer. A side-effect of that is that there is no single programming model of quantum computing. Textbooks such as Nielsen et al. will show you a ‘quantum circuit’ diagram, but those are far from formal programming languages: they get a little ‘hand-waving’ on the details such as classical control or dealing with input/output/measurement results.”
Yea, fuck paywalls, except there isn’t one here. Not sure what you’re on about.
Pulling a serious comment from your third link only reinforces practically everything I’ve been getting at…
See, this is an example of the bad faith I mentioned above : cherrypicking examples that suit your preconceived ideas, ignoring the truckload of examples, frameworks and code snippets (which you asked for) I provided with a brief search on a free search engine. You have shown no will to communicate in good faith, so I am ending my interaction with you here. Just for the record, this is disrespectful of my time, as well as yours.
No, they both very much share something in common. Money and resources, that could otherwise be invested in trying to actually fix the world’s problems.
What are they gonna do with a quantum computer, cure cancer? Then by the time the scientists get to check out the results, the results done got corrupted because of pathetic memory integrity, and it somehow managed to create a new type of cancer with the corrupted results…
Well yes, quite possibly, through protein behavior modeling. Do some reading !
https://builtin.com/hardware/quantum-computing-applications
Ya know, as much hype as there has been for the idea of quantum computing, I haven’t even so much as seen a snippet of source code for it to even say Hello World.
Even if that’s not exactly what these machines are meant for, seriously, where’s even a snippet of code for people to even get a clue how (and if) they even work as they’re hyped to be?
Nobody sees what they don’t look for. This is seven seconds of using duckduckgo with the following query : “what does code for a quantum computer look like?”
https://medium.com/rigetti/how-to-write-a-quantum-program-in-10-lines-of-code-for-beginners-540224ac6b45
https://github.com/Qiskit
https://cstheory.stackexchange.com/questions/9381/what-would-a-very-simple-quantum-program-look-like
https://dl.acm.org/doi/10.1145/3517340#sec-3
I don’t pretend to understand this, as I’m not a computer scientist, even less so a quantum scientist. Quite honestly, if you allow me a bit of criticism, I think you’re interacting with this whole topic in bad faith. Moving goalposts, obviously not doing any kind of documentation effort before criticizing an entire field of research, claiming that development efforts should go towards some vaguely defined “fixing the world problems”…
Your first link is paywalled, fuck that.
Pulling a serious comment from your third link only reinforces practically everything I’ve been getting at…
“The problem of showing a ‘hello world’ of quantum computing is that we’re basically still as far from quantum computers as Leibnitz or Babbage were from your current computer. While we know how they should operate theoretically, there is no standard way of actually building a physical quantum computer. A side-effect of that is that there is no single programming model of quantum computing. Textbooks such as Nielsen et al. will show you a ‘quantum circuit’ diagram, but those are far from formal programming languages: they get a little ‘hand-waving’ on the details such as classical control or dealing with input/output/measurement results.”
Yea, fuck paywalls, except there isn’t one here. Not sure what you’re on about.
See, this is an example of the bad faith I mentioned above : cherrypicking examples that suit your preconceived ideas, ignoring the truckload of examples, frameworks and code snippets (which you asked for) I provided with a brief search on a free search engine. You have shown no will to communicate in good faith, so I am ending my interaction with you here. Just for the record, this is disrespectful of my time, as well as yours.
Okay, you have a good day too.
I’m not about to create an account with miscellaneous sites that require my email.