Translator: Joseph Geni
Reviewer: Camille Martínez I’m in the business
of safeguarding secrets, and this includes your secrets. Cryptographers are
the first line of defense in an ongoing war that’s been
raging for centuries: a war between code makers and code breakers. And this is a war on information. The modern battlefield
for information is digital. And it wages across your phones, your computers and the internet. Our job is to create systems that scramble
your emails and credit card numbers, your phone calls and text messages — and that includes those saucy selfies — (Laughter) so that all of this information
can only be descrambled by the recipient that it’s intended for. Now, until very recently, we thought we’d won this war for good. Right now, each of your smartphones
is using encryption that we thought was unbreakable
and that was going to remain that way. We were wrong, because quantum computers are coming, and they’re going to change
the game completely. Throughout history,
cryptography and code-breaking has always been this game
of cat and mouse. Back in the 1500s, Queen Mary of the Scots thought
she was sending encrypted letters that only her soldiers could decipher. But Queen Elizabeth of England, she had code breakers
that were all over it. They decrypted Mary’s letters, saw that she was attempting
to assassinate Elizabeth and, subsequently,
they chopped Mary’s head off. A few centuries later, in World War II, the Nazis communicated
using the Engima code, a much more complicated encryption scheme
that they thought was unbreakable. But then good old Alan Turing, the same guy who invented
what we now call the modern computer, he built a machine and used it
to break Enigma. He deciphered the German messages and helped to bring Hitler
and his Third Reich to a halt. And so the story has gone
throughout the centuries. Cryptographers improve their encryption, and then code breakers fight back
and they find a way to break it. This war’s gone back and forth,
and it’s been pretty neck and neck. That was until the 1970s, when some cryptographers
made a huge breakthrough. They discovered an extremely
powerful way to do encryption called “public-key cryptography.” Unlike all of the prior methods used
throughout history, it doesn’t require that the two parties that want to send
each other confidential information have exchanged the secret key beforehand. The magic of public-key cryptography
is that it allows us to connect securely with anyone in the world, whether we’ve exchanged
data before or not, and to do it so fast that you and I
don’t even realize it’s happening. Whether you’re texting your mate
to catch up for a beer, or you’re a bank that’s transferring
billions of dollars to another bank, modern encryption enables us
to send data that can be secured in a matter of milliseconds. The brilliant idea that makes
this magic possible, it relies on hard mathematical problems. Cryptographers are deeply interested
in things that calculators can’t do. For example, calculators can multiply
any two numbers you like, no matter how big the size. But going back the other way — starting with the product and then asking, “Which two numbers multiply
to give this one?” — that’s actually a really hard problem. If I asked you to find which two-digit
numbers multiply to give 851, even with a calculator, most people in this room would have
a hard time finding the answer by the time I’m finished with this talk. And if I make the numbers a little larger, then there’s no calculator on earth
that can do this. In fact, even the world’s
fastest supercomputer would take longer
than the life age of the universe to find the two numbers
that multiply to give this one. And this problem,
called “integer factorization,” is exactly what each of your smartphones
and laptops is using right now to keep your data secure. This is the basis of modern encryption. And the fact that all the computing power
on the planet combined can’t solve it, that’s the reason we cryptographers
thought we’d found a way to stay ahead of the code
breakers for good. Perhaps we got a little cocky because just when we thought
the war was won, a bunch of 20th-century physicists
came to the party, and they revealed
that the laws of the universe, the same laws that modern
cryptography was built upon, they aren’t as we thought they were. We thought that one object couldn’t be
in two places at the same time. It’s not the case. We thought nothing can possibly spin
clockwise and anticlockwise simultaneously. But that’s incorrect. And we thought that two objects
on opposite sides of the universe, light years away from each other, they can’t possibly influence
one another instantaneously. We were wrong again. And isn’t that always the way
life seems to go? Just when you think you’ve got
everything covered, your ducks in a row, a bunch of physicists come along and reveal that the fundamental laws
of the universe are completely different to what you thought? (Laughter) And it screws everything up. See, in the teeny tiny subatomic realm, at the level of electrons and protons, the classical laws of physics, the ones that we all know and love, they go out the window. And it’s here that the laws
of quantum mechanics kick in. In quantum mechanics, an electron can be spinning clockwise
and anticlockwise at the same time, and a proton can be in two places at once. It sounds like science fiction, but that’s only because
the crazy quantum nature of our universe, it hides itself from us. And it stayed hidden from us
until the 20th century. But now that we’ve seen it,
the whole world is in an arms race to try to build a quantum computer — a computer that can harness the power
of this weird and wacky quantum behavior. These things are so revolutionary and so powerful that they’ll make today’s
fastest supercomputer look useless in comparison. In fact, for certain problems
that are of great interest to us, today’s fastest supercomputer
is closer to an abacus than to a quantum computer. That’s right, I’m talking about
those little wooden things with the beads. Quantum computers can simulate
chemical and biological processes that are far beyond the reach
of our classical computers. And as such, they promise to help us solve
some of our planet’s biggest problems. They’re going to help us
combat global hunger; to tackle climate change; to find cures for diseases and pandemics
for which we’ve so far been unsuccessful; to create superhuman
artificial intelligence; and perhaps even more important
than all of those things, they’re going to help us understand
the very nature of our universe. But with this incredible potential comes an incredible risk. Remember those big numbers
I talked about earlier? I’m not talking about 851. In fact, if anyone in here
has been distracted trying to find those factors, I’m going to put you out of your misery
and tell you that it’s 23 times 37. (Laughter) I’m talking about the much
bigger number that followed it. While today’s fastest supercomputer
couldn’t find those factors in the life age of the universe, a quantum computer
could easily factorize numbers way, way bigger than that one. Quantum computers will break
all of the encryption currently used to protect you and I from hackers. And they’ll do it easily. Let me put it this way: if quantum computing was a spear, then modern encryption, the same unbreakable system
that’s protected us for decades, it would be like a shield
made of tissue paper. Anyone with access to a quantum computer
will have the master key to unlock anything they like
in our digital world. They could steal money from banks and control economies. They could power off hospitals
or launch nukes. Or they could just sit back
and watch all of us on our webcams without any of us knowing
that this is happening. Now, the fundamental unit of information
on all of the computers we’re used to, like this one, it’s called a “bit.” A single bit can be one of two states: it can be a zero or it can be a one. When I FaceTime my mum
from the other side of the world — and she’s going to kill
me for having this slide — (Laughter) we’re actually just sending each other
long sequences of zeroes and ones that bounce from computer to computer,
from satellite to satellite, transmitting our data at a rapid pace. Bits are certainly very useful. In fact, anything
we currently do with technology is indebted to the usefulness of bits. But we’re starting to realize that bits are really poor at simulating
complex molecules and particles. And this is because, in some sense, subatomic processes can be doing
two or more opposing things at the same time as they follow these bizarre rules
of quantum mechanics. So, late last century, some really brainy physicists
had this ingenious idea: to instead build computers
that are founded on the principles of quantum mechanics. Now, the fundamental unit of information
of a quantum computer, it’s called a “qubit.” It stands for “quantum bit.” Instead of having just two states,
like zero or one, a qubit can be an infinite
number of states. And this corresponds to it being
some combination of both zero and one at the same time, a phenomenon that we call “superposition.” And when we have two qubits
in superposition, we’re actually working across
all four combinations of zero-zero, zero-one,
one-zero and one-one. With three qubits, we’re working in superposition
across eight combinations, and so on. Each time we add a single qubit,
we double the number of combinations that we can work with in superposition at the same time. And so when we scale up
to work with many qubits, we can work with an exponential
number of combinations at the same time. And this just hints at where the power
of quantum computing is coming from. Now, in modern encryption, our secret keys, like the two factors
of that larger number, they’re just long sequences
of zeroes and ones. To find them, a classical computer must go through
every single combination, one after the other, until it finds the one that works
and breaks our encryption. But on a quantum computer, with enough qubits in superposition, information can be extracted
from all combinations at the same time. In very few steps, a quantum computer can brush aside
all of the incorrect combinations, home in on the correct one and then unlock our treasured secrets. Now, at the crazy quantum level, something truly incredible
is happening here. The conventional wisdom
held by many leading physicists — and you’ve got to stay
with me on this one — is that each combination is actually
examined by its very own quantum computer inside its very own parallel universe. Each of these combinations,
they add up like waves in a pool of water. The combinations that are wrong, they cancel each other out. And the combinations that are right, they reinforce and amplify each other. So at the end of the quantum
computing program, all that’s left is the correct answer, that we can then observe
here in this universe. Now, if that doesn’t make
complete sense to you, don’t stress. (Laughter) You’re in good company. Niels Bohr, one of
the pioneers of this field, he once said that anyone
who could contemplate quantum mechanics without being profoundly shocked, they haven’t understood it. (Laughter) But you get an idea
of what we’re up against, and why it’s now up to us cryptographers to really step it up. And we have to do it fast, because quantum computers, they already exist in labs
all over the world. Fortunately, at this minute, they only exist
at a relatively small scale, still too small to break
our much larger cryptographic keys. But we might not be safe for long. Some folks believe that secret
government agencies have already built a big enough one, and they just haven’t told anyone yet. Some pundits say
they’re more like 10 years off. Some people say it’s more like 30. You might think that
if quantum computers are 10 years away, surely that’s enough time
for us cryptographers to figure it out and to secure the internet in time. But unfortunately, it’s not that easy. Even if we ignore
the many years that it takes to standardize and deploy and then
roll out new encryption technology, in some ways we may already be too late. Smart digital criminals
and government agencies may already be storing
our most sensitive encrypted data in anticipation for
the quantum future ahead. The messages of foreign leaders, of war generals or of individuals who question power, they’re encrypted for now. But as soon as the day comes that someone gets their hands
on a quantum computer, they can retroactively break
anything from the past. In certain government
and financial sectors or in military organizations, sensitive data has got to remain
classified for 25 years. So if a quantum computer
really will exist in 10 years, then these guys are already
15 years too late to quantum-proof their encryption. So while many scientists around the world are racing to try to build
a quantum computer, us cryptographers are urgently
looking to reinvent encryption to protect us long before that day comes. We’re looking for new,
hard mathematical problems. We’re looking for problems that,
just like factorization, can be used on our smartphones
and on our laptops today. But unlike factorization,
we need these problems to be so hard that they’re even unbreakable
with a quantum computer. In recent years, we’ve been digging around
a much wider realm of mathematics to look for such problems. We’ve been looking at numbers and objects that are far more exotic
and far more abstract than the ones that you and I are used to, like the ones on our calculators. And we believe we’ve found
some geometric problems that just might do the trick. Now, unlike those two-
and three-dimensional geometric problems that we used to have to try to solve
with pen and graph paper in high school, most of these problems are defined
in well over 500 dimensions. So not only are they a little hard
to depict and solve on graph paper, but we believe they’re even
out of the reach of a quantum computer. So though it’s early days, it’s here that we are putting our hope
as we try to secure our digital world moving into its quantum future. Just like all of the other scientists, we cryptographers are tremendously excited at the potential of living in a world
alongside quantum computers. They could be such a force for good. But no matter what
technological future we live in, our secrets will always be
a part of our humanity. And that is worth protecting. Thanks. (Applause)

In the war for information, will quantum computers defeat cryptographers? | Craig Costello
Tagged on:                                                                 

100 thoughts on “In the war for information, will quantum computers defeat cryptographers? | Craig Costello

  • December 7, 2019 at 12:39 am
    Permalink

    you can never change the fact that most people are stupid idiots, they dont hide their passwords, dont mind being watched and are naive as kids.

    Reply
  • December 7, 2019 at 1:02 am
    Permalink

    x * y = 851

    – Both factors have to be odd numbers, because if one, or both, was an even number, the output would also be even. 1*851 is technically valid but I doubt that's the solution.

    – 1 of the factors has to end with either 1, 3, 7, or 9, because 5 can never be multiplied to give a 1.

    – 8 + 5 + 1 = 14, and 1 + 5 is 6, so therefore none of the factors of 851 can be multiples of 9. (You can check if any number is divisible by 9 if you add up all the digits, and repeat until you're left with a 1 digit long number).

    – The 2 factors can't be the same, as 851 doesn't have an even square root.

    – If one factor ends in a 1, then the other must also end in 1. Otherwise, the output won't have a 1 at the end. This point also applies to 9, but it's been ruled out earlier already.

    – In order for 3 to be the last digit of a factor, 7 has to be the last digit of the other factor. The same is true for 7. This is because they won't multiply with any other numbers to give a figure ending in 1.

    So, then ruling out number combinations that are too low (3*7, 17*3, 7*13, 17*13, 13*27, and 23*17), we can just multiply 2 factors together, accounting for the above:

    – 27*23 = 621
    – 27*33 = 891
    – 23*37 = 851

    Therefore, the factors are 23 and 37. Might be others, but I just stopped here.

    Reply
  • December 7, 2019 at 1:05 am
    Permalink

    23*37 = 851. That took less than a minute

    Reply
  • December 7, 2019 at 1:16 am
    Permalink

    At last. A Ted talk where the mic has been setup correctly so we dont hear every single intake of breath or lip smack.
    THANK YOU!
    Great talk btw

    Reply
  • December 7, 2019 at 1:17 am
    Permalink

    Can we use quantum computers to decipher the zodiac letters????

    Reply
  • December 7, 2019 at 2:21 am
    Permalink

    NOW THIS DEBATE IS GOING
    TO ANOTHER LEVEL

    Reply
  • December 7, 2019 at 2:42 am
    Permalink

    The errors from quantum computing make it a terrible tech, even transistors have a hard time with error checking. They will throw billions at the problem, but they will never be able to change how the universe operates. In order to know how to maintain a quantum computer in the physical world you need a perfect quantum computer to tell you how. It's doomed from the start.

    Reply
  • December 7, 2019 at 2:43 am
    Permalink

    Couldn’t they use quantum computing to get an unbreakable code from quantum computers

    Reply
  • December 7, 2019 at 2:45 am
    Permalink

    What if we have another quantum computer generate public keys in rapid succession resulting cat and mouse game equilibria.

    Reply
  • December 7, 2019 at 3:08 am
    Permalink

    Who are all don't understand what he is talking about like here…

    Reply
  • December 7, 2019 at 3:20 am
    Permalink

    find the error:
    "secret goverment agencies"
    what is a goverment? its a small group of people, which is working fo us. like a company.
    a group of people, who take our money, and give us something for it: security, streets, hospitals, kindergardens, etc.

    they are working for us and get paid for it.

    how can it be, this small group, not telling us about what they have developed with our money ?
    a quantum computer which could encrypt these codes..

    Reply
  • December 7, 2019 at 3:24 am
    Permalink

    Data encryption is only part of securing sensitive information. Restricting access to only properly authorized users in the first place is the gaping hole in the model, what with all the constant hacks of governmental, business, and personal systems. And the access restriction challenge is probably more daunting than the encryption challenge.

    Reply
  • December 7, 2019 at 4:21 am
    Permalink

    life is nothing more than a power creep

    Reply
  • December 7, 2019 at 4:32 am
    Permalink

    "quantum computers will make classic computers useless" yeah nope… back to school boy
    solves different kinds of problems, most of the old problems will still be solved by "old" computers. QCs will solve some stuff classics just can't do. So you might end up with a dedicated Quantum Card or something similar in your classic computer.

    Reply
  • December 7, 2019 at 4:54 am
    Permalink

    Amazing! Unbelievable even!
    Great talk!

    Reply
  • December 7, 2019 at 5:01 am
    Permalink

    Fascinating. More of this please TED

    Reply
  • December 7, 2019 at 5:02 am
    Permalink

    23 times 37 = 851

    Reply
  • December 7, 2019 at 5:23 am
    Permalink

    I do research in quantum computing software. I feel like the situation is simultaneously more and less dire than this talk implies (no superposition joke intended). The point about encrypted data needing to be future-proof is very profound and underappreciated. On the other hand, quantum computing applies to a narrow set of problems; it's not the next generation of classical computers, it's something entirely new and different.

    Also, I find the parallel universes thing to be an unfalsifiable theory (and therefore not very useful). It's fine for quantum physicists to offer speculative interpretations of experimental results, but these aren't really relevant to quantum computing and distract the non-technical audience.

    Reply
  • December 7, 2019 at 6:44 am
    Permalink

    There goes cryto currency.

    Reply
  • December 7, 2019 at 6:54 am
    Permalink

    one multiplied by the same big number gives the number 😛

    Reply
  • December 7, 2019 at 6:54 am
    Permalink

    history repeats its self, it's like we are at the beginning again with computers let me elaborate……classical computers used to be the size of a whole room, now quantum computers are as big as a room just need to scale them down to the size of today, we are witnessing a new paradigm a computer technology and the next qrms raise has begun, then the next world war will happen because of this technology and whoever controls this technology in the future will be the only world conqueror ever.
    this is crazy times we all are witnessing and this will all happen exponentially faster than the first time, quantum computers will give us the ability to solve the impossible now and enable use to fulfill sciences main objective of making immortality happen in the next 50 years or sooner I believe.

    Reply
  • December 7, 2019 at 7:00 am
    Permalink

    Just wait until AI gets it hands on quantum computing. Or Nigerian scammers.

    Reply
  • December 7, 2019 at 7:16 am
    Permalink

    I know these talks are good, but he lacks understanding how basic password checks work. I can create a program that will not longer accepts input after 3 tries – no matter how power your PC is you're not getting in.

    Reply
  • December 7, 2019 at 7:37 am
    Permalink

    Damn i got goosebumps

    Reply
  • December 7, 2019 at 8:32 am
    Permalink

    Great. 👏 Now we are gonna have something that's gonna predict what my mum wants for dinner since her choices are constantly in super position..

    Reply
  • December 7, 2019 at 8:51 am
    Permalink

    If you have a problem with a quantum computer, you will have to turn it off and on at the same time.

    Reply
  • December 7, 2019 at 9:18 am
    Permalink

    I just hope quantum computers will be powerful enough to play Dwarf Fortress

    Reply
  • December 7, 2019 at 9:18 am
    Permalink

    You have to study how atoms work first to fully understand what he is really said glad I did!

    Reply
  • December 7, 2019 at 9:21 am
    Permalink

    In the WAR of THE SANE vs. THE INSANE, will the INSANE that 'god' chose, defeat the sane? Right now, too close to say.
    Joe Magnets

    Reply
  • December 7, 2019 at 9:55 am
    Permalink

    So basically physicists in 20th century were cheating

    Reply
  • December 7, 2019 at 10:17 am
    Permalink

    This guy is an incredibly good speaker. What a fresh video instead of all that other crap TED has been uploading recently.

    Reply
  • December 7, 2019 at 10:34 am
    Permalink

    No quantum computer has run any programs yet xD

    Reply
  • December 7, 2019 at 10:37 am
    Permalink

    Quantum computer is a buzzing word now-a-days, but I always wonder in what instruments it will be made of. Most importantly, do you need this revolution for welfare of human kind.

    Reply
  • December 7, 2019 at 11:16 am
    Permalink

    "Quantum" = "we see something that we don't even understand so we give it a cool name"

    Reply
  • December 7, 2019 at 11:43 am
    Permalink

    Just double the encryption Key length and you have +20 years until the amount of Qubits doubles, this video is just falsy propaganda

    Reply
  • December 7, 2019 at 11:43 am
    Permalink

    PSA: this is not a talk about post-quantum cryptography. It's a call to action for people who've never ever heard of quantum computers or cryptography. There, I might just have saved you 16 minutes of your life.

    Reply
  • December 7, 2019 at 11:45 am
    Permalink

    Perhaps we should devalue information.??..

    Reply
  • December 7, 2019 at 11:59 am
    Permalink

    We're f*cked bois

    Reply
  • December 7, 2019 at 12:13 pm
    Permalink

    Best presentation I've seen on this subject. As clear as they come.

    Reply
  • December 7, 2019 at 2:29 pm
    Permalink

    Bad Talk. This did nothing but enforce the typical misconceptions most ppl already believe + he added way to much polemic alarmism.
    also, there is not a single quantum computer working right now and this wont change in the foreseeable future.
    this guy is just a salesman, no expert on technology and/or science what so ever.

    Reply
  • December 7, 2019 at 3:06 pm
    Permalink

    BS – quantum computers have been promised for 20 years, he even says it himself

    Reply
  • December 7, 2019 at 3:10 pm
    Permalink

    Nonsense.

    Reply
  • December 7, 2019 at 3:30 pm
    Permalink

    you are lying about Alan Turing, why you are anti-Polish

    Reply
  • December 7, 2019 at 3:35 pm
    Permalink

    telepathy, we are no secrets!! we want free world!!!!

    Reply
  • December 7, 2019 at 3:41 pm
    Permalink

    look at Microsoft Q# – the high level language for quantum computers (they are big and limited prototypes but working)

    Reply
  • December 7, 2019 at 3:41 pm
    Permalink

    look at Microsoft Q# – the high level language for quantum computers (they are big and limited prototypes but working)

    Reply
  • December 7, 2019 at 3:52 pm
    Permalink

    Next world war(war of information) begin with quantum computer……..

    Reply
  • December 7, 2019 at 4:11 pm
    Permalink

    Next step linking a quantum computer with the human brain. Let's hope that it is a sane brain that's used ! That takes into Ray Kurzweil territory.

    Reply
  • December 7, 2019 at 4:32 pm
    Permalink

    Make new incription using the quantum computer…duh

    Reply
  • December 7, 2019 at 4:39 pm
    Permalink

    What about slide rulers?

    Reply
  • December 7, 2019 at 5:06 pm
    Permalink

    As an ex cryptographic technician, I can say that the probability factor of this being a reality,is closer than many would like to admit.

    Reply
  • December 7, 2019 at 5:34 pm
    Permalink

    Whoa! Nuclear Fusion + AI + Quantum Computing + Graphene + 3D printing + Boston Dynamic Robotics, My next self building-driving-repairing space-motorbike is going to be sooooo fast.

    Reply
  • December 7, 2019 at 5:47 pm
    Permalink

    He said the cubits were in combinations but those were actually permutations, anybody? 🤔

    Reply
  • December 7, 2019 at 6:02 pm
    Permalink

    NSA is developing quantum computers for breaking codes.

    Reply
  • December 7, 2019 at 6:10 pm
    Permalink

    I do not think you understand what spin is. You understand it enough to be a chartographer, but not at all. If would have done more research. Of course it sounds like science fiction if you haven't made enough research.
    An electron isn't really spining. You can think of the electron as spining… But Really don't. Physist though that at the beginning, and tried to use that to make some prediction, and they tried to calculated the size of an electron… According to their calculation, it was bigger than the atom. It is still called spin because if the electron is not actually spinning, he still has anguler momentum.
    Check out that playlist from looking glass universe: https://www.youtube.com/playlist?list=PLg-OiIIbfPj3JrdQgqkdlPe_jxRC0mw35.

    Reply
  • December 7, 2019 at 6:21 pm
    Permalink

    I am worried that my own private info does not get leaked.

    Reply
  • December 7, 2019 at 6:40 pm
    Permalink

    Yep the Q computers and genius coders are out there already. Hence the billions of misc money disseapearing..

    Reply
  • December 7, 2019 at 7:11 pm
    Permalink

    Imagine quantum morality: you can be good and evil simultaneously.

    Reply
  • December 7, 2019 at 7:30 pm
    Permalink

    Just W O W!

    Reply
  • December 7, 2019 at 10:08 pm
    Permalink

    I recommend this clip from Tom Scott regarding a similar tool. It’s a short video but it’s very informative, which is his style.
    https://youtu.be/1cUUfMeOijg

    Reply
  • December 7, 2019 at 10:09 pm
    Permalink

    🦋it’s scary what people will do to get your information. Thank goodness I know how to put smart them.

    Reply
  • December 7, 2019 at 10:11 pm
    Permalink

    Quantum stuff sounds like magic. It's magic

    Reply
  • December 7, 2019 at 11:28 pm
    Permalink

    Simple solution – go back to the days where people didn't need phones or computers to be useful 😉

    Reply
  • December 8, 2019 at 12:42 am
    Permalink

    Interesting, but why do i have the feeling the solution will be something simple and elegant?

    Reply
  • December 8, 2019 at 2:18 am
    Permalink

    Quantum computers are going to be a game changer. Overseen properly, the dark web could be cleaned up and humanity's question to many things with be answered.

    Reply
  • December 8, 2019 at 3:27 am
    Permalink

    There was a saying in the spider man movies: with great powers comes great responsibility.

    In this Ted talk: with this incredible potential comes incredible risk

    Reply
  • December 8, 2019 at 4:37 am
    Permalink

    Whilst I think this talk is interesting, he only makes a series of assertions without backing up what he says with reliable sources. It seems like almost a prophetic approach to a really complicated problem.

    Reply
  • December 8, 2019 at 5:31 am
    Permalink

    Quantum Computers are everywhere around the world today in labs. They will kill current cryptography standards. New ones involve 5000-dimensional geometric problems which are believed to be out of reach of quantum computers.

    Reply
  • December 8, 2019 at 6:31 am
    Permalink

    There is no need for a Quantum computer to break security. RSA has a macroscopic flaw which can be used to break security within seconds on a normal computer.

    Reply
  • December 8, 2019 at 6:41 am
    Permalink

    Any further reading on the dimensions that he mentioned?

    Reply
  • December 8, 2019 at 7:00 am
    Permalink

    scam. We already quantum, these guys never going to break sha256 with that crap

    Reply
  • December 8, 2019 at 7:28 am
    Permalink

    as long as humans and politicians respect each other, the concepts of human domains both cyber and physical with continue to exist and thrive. beside with quantum hacking comes quantum cryptography, so human politics determines the endgame once again for individuals and nations.

    Reply
  • December 8, 2019 at 7:58 am
    Permalink

    Why not use Quantum cryptography to make encryptions stronger?

    Reply
  • December 8, 2019 at 8:09 am
    Permalink

    The next James Bond movie …. Quantum Computer of Solace.

    Reply
  • December 8, 2019 at 9:27 am
    Permalink

    7:04 world hunger is not an issue of information , its of capitalism and greed

    Reply
  • December 8, 2019 at 9:41 am
    Permalink

    Like he mentioned its likely highly advanced quantum computers and highly advanced ai already exists.

    Reply
  • December 8, 2019 at 10:01 am
    Permalink

    To this is probably stupid question, but how about quantum cryptography by quantum computers?

    Reply
  • December 8, 2019 at 10:05 am
    Permalink

    AWS just launched their Quantum Computing lab service … you’re already too late

    Reply
  • December 8, 2019 at 10:09 am
    Permalink

    He didn't answer the most interesting question: Is it theoretecly possible to live through quantom computers after death?

    Reply
  • December 8, 2019 at 1:04 pm
    Permalink

    Alan Turing didnt break Enigma

    Reply
  • December 8, 2019 at 1:32 pm
    Permalink

    Almost all security issues arise from the user; this is the problem!

    Reply
  • December 8, 2019 at 2:12 pm
    Permalink

    Dude's accent sounds really nice. Which accent is it?

    Reply
  • December 8, 2019 at 3:37 pm
    Permalink

    https://www.youtube.com/channel/UCofRNXzLYdo2CC_OxpC1G9Q

    Reply
  • December 8, 2019 at 3:44 pm
    Permalink

    Man this was a really interesting talk but the presentation was soo weak. The outro was awkward as fruit.

    Reply
  • December 8, 2019 at 4:05 pm
    Permalink

    Quick, alert the president and let him know that quantum computers are being built in labs around the world and it's only a matter of time before…..??????? My brain just realized that it is a quantum computer. Don't tell anybody.

    Reply
  • December 8, 2019 at 4:24 pm
    Permalink

    "quantum computers are going to fix climate change"

    no they won't

    Reply
  • December 8, 2019 at 7:12 pm
    Permalink

    He didn't mention deepfakes

    Reply
  • December 8, 2019 at 7:29 pm
    Permalink

    I kinda had a fun thought. What if both lock and key were both changing via time but also synchronous. If you had data (e.g. a password) constantly changing I'd imagine a quantum computer would have a difficult time breaking the code. And hence the the synchronized key would be the only means of opening it.

    Reply
  • December 8, 2019 at 9:21 pm
    Permalink

    It was fun!

    Reply
  • December 8, 2019 at 10:06 pm
    Permalink

    Imagine we store our super secret data in a super hi-tech quantum computer, but then someone does some psychological tricks and make us give up those data without any hesitation.

    Reply
  • December 8, 2019 at 10:31 pm
    Permalink

    brilliant talk!

    Reply
  • December 8, 2019 at 10:57 pm
    Permalink

    i did my research paper on this

    Reply
  • December 8, 2019 at 11:40 pm
    Permalink

    Quantum computers? lmfao. They can't even build one yet, that has any use.
    Some day maybe. But lmao.

    Reply
  • December 9, 2019 at 1:46 am
    Permalink

    High Key this is boring

    Reply
  • December 9, 2019 at 2:07 am
    Permalink

    I may be completely wrong but just spitballin, you said a quantum computer solves problems in a different state or as u put it a different dimension. You can only create something difficult enough by creating a problem or scenario of something that does not exist in that dimension. But the only way to figure out such a problem is to figure out what exists in the first place inside that realm.

    Reply
  • December 9, 2019 at 2:40 am
    Permalink

    Can someone recommend me, a commoner, some book or web page to start and study quantum physics. It doesn't matter if i have to restudy clasic physics. I want to know this

    Reply
  • December 9, 2019 at 3:20 am
    Permalink

    OMG SO FAKE! This is one way to tell uneducated citizen to stay away from cryptocurrency, but what they don't know is people are fed up with fiat currency,

    Reply
  • December 9, 2019 at 4:58 am
    Permalink

    Just wrote a comment about how governments might already have this. Got a message about how i need to be logged in to comment even if i was.. Illuminati 100% confirmed.

    Reply
  • December 9, 2019 at 7:53 am
    Permalink

    But with this incredible potential comes an incredible risk! ~ cargio parker

    Reply
  • December 9, 2019 at 8:48 am
    Permalink

    Not Niels Bohr
    The quote, exact words, "If you think you understand quantum mechanics, you don't understand quantum mechanics." is very very widely attributed to Feynman
    ………………Google just took a quantum leap in computer science. Using the company's state-of-the-art quantum computer, called Sycamore, Google has claimed "quantum supremacy" over the most powerful supercomputers in the world by solving a problem considered virtually impossible for normal machines.

    The quantum computer completed the complex computation in 200 seconds. That same calculation would take even the most powerful supercomputers approximately 10,000 years to finish, the team of researchers, led by John Martinis, an experimental physicist at the University of California, Santa Barbara, wrote in their study published Wednesday (Oct. 23) in the journal Nature.

    Reply

Leave a Reply

Your email address will not be published. Required fields are marked *