Wonderful talk. I also enjoy how you describe diamond-NV, and the challenges taking QPUs out of the lab, which was something that was a challenge in my time at Quantum Brilliance (which uses diamonds for room-temp quantum accelerators). And of course, I love even more that you and the team got out and got it working. Will be following along your journey on the EQI/QuTech mission. Great work mate.
Great talk, but one minor correction. Bell (and the recent Nobel prize team) did not prove that hidden variables don't work. They proved that LOCAL hidden variables theories don't work. So Einstein's motivation for hidden variables was a moot point. Bell actually respected Bohmian mechanics, the leading hidden variables theory, and I think it was him that said Bohm made hidden variables work "in the way that Einstein would have liked least." Even the press announcement for the Nobel prize got this little detail wrong.
The quantum internet promises ultra-secure communication and lightning-fast data transfer, potentially revolutionizing cybersecurity as we know it. But with such advanced technology on the horizon, how will it impact privacy and ethical considerations in the digital world?
It's easy you just create 2 quantum keys over the existing fibre optic nano layer and tie that into the neural sub quantic optimizer and then say shazam 3 times.
9:46 In order to fully model the caffeine molecule, I think we have to break four bit calculation. Problem with breaking four bit calculation is that Turing's rules do not hold up because the ultimate goal of 4-bit calculation is to never stop because if it ever stops it will never be able to start again.
I like this speaker. He has good cadence and vocal tone. But to make the claim that the quantum Internet is going to be unhackable, is quite a misstep. Tamper-proof, maybe, but unhackable, that's just a lie.
At 9:00, it's so complex that they don't have computing capabilities to...... But they knew the chemicals in the prevention of the last few years were safe and effective. Someone's been lying.
Nonsense. Qubits are trinary, with multiple states. A Photonic system can have nearly infinite simultaneous states at the same time. Which means literally infinary states at once. To break a Quantum System, one would just need a faster, lower cost, and more compute per space and dollar per FLOP Photonic system.
36:50 all electronic devices talking the same language is the death of secure communications. the first and last way to secure communications is to control what meaningful information ends up on an electronic device. electronic devices should not run on "language", it should run on 100% noise.
Define hacking. If it includes human engineering than this will surpass the collapse of a wave function, i.e. the benefit of entanglement as mitigation against undesired observers.
Quantum computing means the end of all information security. Whoever gets it first will collect all the data. Whoever iterates next will then take it from them. It’s game over, the exact opposite of what the speaker claims. I like his effort to build a network and hope they succeed, however.
For conventional encryption sure, he literally explains how it becomes impossible with quantum based encryption. Curious what your source for the claim is
@@HarpreetSingh-xg2zm It's in this very video. There's a mention that such systems automatically detect message interceptions. Also that there are encryption algorithms that resist both classical and quantum computer breaking. This is in agreement with many other sources I've read. Only *current* encryption algorithms are vulnerable to quantum computers.
Isn't "light" is also known as electromagnetism? And that is what is also runs Ethernet over copper ? I hate people who dress up nicely to make money of you. o_O
When you think about it a quantum computer or any device is 100% hackable if the parameters of the physics that went into it did not encompass the natural laws of space and time. Even if they did they still could be 100% hacked if one quantum device had a greater power source to use at its disposal.
Don't get me wrong, but this talk was really not interesting. The topic is nice, but the way it was presented literally made me fall asleep. I watched hundreds of talks with excitement on the other hand, so keep on doing your awesome work! 😊
Yes, just like the Enigma was unbreakable, and current cryptography would "take longer than the universe will last" to compute, until that wasn't true either. When will scientific bodies begin to practice hubris? Certainly not in our time, that is for certain.
No one ever said, Enigma was unbreakable. Even the Germans KNEW it was breakable. The Germans assumed it would take too long to break so they didn't care since they changed the key every month. So the Germans took the position that it would take longer than a month so it was for all intents and purposes unbreakable.
Did you even watch the presentation? Because being unbreakable or unhackable was not the focus whatsoever, barely even mentioned. He talked about the current state of the art, the problems within the field, and shared some details of the particular problems he and his team are working on. Problems of scalability of a quantum internet, how to utilize existing fiber optic infrastructure, it's rather fascinating how far we've come with this.
I’m not impressed by these things When physicists begin to power devices without the need for generating it, transmitting it or storing it, they can be very proud.
Two quantum computers would know right away when the qbit is measured and entanglement is broken. So any hack would get thwarted as soon as it is attempted
Wonderful talk. I also enjoy how you describe diamond-NV, and the challenges taking QPUs out of the lab, which was something that was a challenge in my time at Quantum Brilliance (which uses diamonds for room-temp quantum accelerators). And of course, I love even more that you and the team got out and got it working. Will be following along your journey on the EQI/QuTech mission. Great work mate.
Great talk, but one minor correction. Bell (and the recent Nobel prize team) did not prove that hidden variables don't work. They proved that LOCAL hidden variables theories don't work. So Einstein's motivation for hidden variables was a moot point. Bell actually respected Bohmian mechanics, the leading hidden variables theory, and I think it was him that said Bohm made hidden variables work "in the way that Einstein would have liked least."
Even the press announcement for the Nobel prize got this little detail wrong.
Please make video :)
This is the defining moment. Glad to be onboard for the ride.
Great job, Kian ;)
Electron to Photon: "They still think your weightless"... Photon replies, "Well I think you're biased"..
Very illuminating. I got a real charge out of this humor.
Rather polarizing
*you’re
The quantum internet promises ultra-secure communication and lightning-fast data transfer, potentially revolutionizing cybersecurity as we know it. But with such advanced technology on the horizon, how will it impact privacy and ethical considerations in the digital world?
Very interesting talk. Maybe could have spent an extra couple of minutes describing how a quantum repeater works.
It's easy you just create 2 quantum keys over the existing fibre optic nano layer and tie that into the neural sub quantic optimizer and then say shazam 3 times.
Wonderful
Unhackable internet,,,,, dream on
TY for helping me FinD the AnsweR
9:46 In order to fully model the caffeine molecule, I think we have to break four bit calculation. Problem with breaking four bit calculation is that Turing's rules do not hold up because the ultimate goal of 4-bit calculation is to never stop because if it ever stops it will never be able to start again.
Utter nonsense! References please.
Interesting!
Physicist with salesman vibe calls himself "physician" -> instructions unclear -> chaos ensues.
Wow very interesting. For for you lecture.
Interesting stuff!
what was edited out at 6:45?
Handsome guy.
The interesting thing to me is what entities attempt to stop, sabotage or control this technology. That will tell us a lot.
You just pull the plug from the socket
Such as?
Proud to be Dutch
No reason to be proud, kääskopp.
Vivaaaaa Hollandiaaaa
" the robots decided our fate in a microsecond... extermination!!" 😃
I like this speaker. He has good cadence and vocal tone.
But to make the claim that the quantum Internet is going to be unhackable, is quite a misstep. Tamper-proof, maybe, but unhackable, that's just a lie.
UNHACKABLE! ...
Hackers ... challenge accepted!
Kind of how things work - you should challenge them and reward them for finding vulnerabilities.
I'm extremely skeptical of all of this hand-waving. I doubt I'll be alive if the quantum internet ever happens.
Check your pulse. Rudimentary steps have already taken place,
Wait, if theres no hidden variables during entanglement then what is dark matter/energy?
Non interactive force? Just like EM radiation has no effect on gravity
At 9:00, it's so complex that they don't have computing capabilities to......
But they knew the chemicals in the prevention of the last few years were safe and effective.
Someone's been lying.
34:35 what is that shape??
China?, Russia?
A Country?😮😅
34:28 it is England on its side North is to the right. 😂
SooM 13
Nonsense.
Qubits are trinary, with multiple states. A Photonic system can have nearly infinite simultaneous states at the same time. Which means literally infinary states at once.
To break a Quantum System, one would just need a faster, lower cost, and more compute per space and dollar per FLOP Photonic system.
36:50 all electronic devices talking the same language is the death of secure communications. the first and last way to secure communications is to control what meaningful information ends up on an electronic device. electronic devices should not run on "language", it should run on 100% noise.
Define hacking. If it includes human engineering than this will surpass the collapse of a wave function, i.e. the benefit of entanglement as mitigation against undesired observers.
Quantum computing means the end of all information security. Whoever gets it first will collect all the data. Whoever iterates next will then take it from them. It’s game over, the exact opposite of what the speaker claims. I like his effort to build a network and hope they succeed, however.
Quite the opposite. A quantum internet can prove absolutely secure transmission.
For conventional encryption sure, he literally explains how it becomes impossible with quantum based encryption. Curious what your source for the claim is
@@HarpreetSingh-xg2zm It's in this very video. There's a mention that such systems automatically detect message interceptions. Also that there are encryption algorithms that resist both classical and quantum computer breaking.
This is in agreement with many other sources I've read. Only *current* encryption algorithms are vulnerable to quantum computers.
Isn't "light" is also known as electromagnetism? And that is what is also runs Ethernet over copper ? I hate people who dress up nicely to make money of you. o_O
Run the Reiman through a network of them and recoup a million of th cost 😂
The model of caffeine and it's eefects would have to be relative and have relative variables.
My god the lip smacking from his microphone makes this very hard to listen to
When you think about it a quantum computer or any device is 100% hackable if the parameters of the physics that went into it did not encompass the natural laws of space and time. Even if they did they still could be 100% hacked if one quantum device had a greater power source to use at its disposal.
No, not at all.
Don't get me wrong, but this talk was really not interesting. The topic is nice, but the way it was presented literally made me fall asleep. I watched hundreds of talks with excitement on the other hand, so keep on doing your awesome work! 😊
If a system is accessible then it is compromisable and hackable
I think he was referring to middlemen based hacks
Yes, just like the Enigma was unbreakable, and current cryptography would "take longer than the universe will last" to compute, until that wasn't true either. When will scientific bodies begin to practice hubris? Certainly not in our time, that is for certain.
You mean humility. Hubris is the opposite of that
No one ever said, Enigma was unbreakable. Even the Germans KNEW it was breakable. The Germans assumed it would take too long to break so they didn't care since they changed the key every month. So the Germans took the position that it would take longer than a month so it was for all intents and purposes unbreakable.
Did you even watch the presentation? Because being unbreakable or unhackable was not the focus whatsoever, barely even mentioned. He talked about the current state of the art, the problems within the field, and shared some details of the particular problems he and his team are working on. Problems of scalability of a quantum internet, how to utilize existing fiber optic infrastructure, it's rather fascinating how far we've come with this.
Hypable buzzword
Ugh cute nerds; swoon
I’m not impressed by these things When physicists begin to power devices without the need for generating it, transmitting it or storing it, they can be very proud.
Good luck with that
So, you're only impressed by things that are impossible?
@@stevec7923 Is photonics impossible?
@@MadScientist267 Energy from the spectrum of light 💡 ought to be utilized without the need to create any.
@@balasubr2252 LOL You're completely serious... 🤣
AI will be able to break any code or security measure.
Two quantum computers would know right away when the qbit is measured and entanglement is broken. So any hack would get thwarted as soon as it is attempted
I must say that is a handsome man.