Quantum Computers Aren’t What You Think — They’re Cooler | Hartmut Neven | TED
374,759 views ・ 2024-07-19
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I'm Hartmut, I lead Google Quantum AI.
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I have been working
on quantum computing since 2012.
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And let me tell you
why this is so intriguing.
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Today's computers, like your laptop
or a server at a Google data center,
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operate on the binary logic
of zeros and ones.
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A quantum computer like this one
replaces the binary logic
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with the laws of quantum physics
that gives it more powerful operations,
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allowing it to perform certain
computations with way fewer steps.
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So where does this superpower come from?
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Quantum computing is the first technology
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that takes the idea serious
that we live in a multiverse.
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It can be seen as farming out
computations to parallel universes.
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Let me explain.
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In quantum physics,
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the key mathematical object
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to describe many worlds
is called superposition.
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To understand what it is,
let's look at this simple system.
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You just need three bits to describe it.
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Each coin is a two-state system.
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Heads or tails,
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zero or one.
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We look at a start state.
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If I were to know which forces
act on the system,
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then I can predict its trajectory
and future states.
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This is how we reason in classical physics
and also in everyday life.
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But if you were to treat
this as a quantum system,
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then it can branch into many
configurations simultaneously.
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And we have to keep track
of all those trajectories,
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interfere them to make
an accurate prediction
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of what states we are going
to see in the future.
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So the equations of quantum mechanics
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tell us that at any time, any object,
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myself or the world at large,
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exists in a superposition
of many configurations.
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Intriguingly, look around in this room.
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We are forming a configuration too.
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And the equations of quantum
physics would suggest
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that we sit in different
arrangements in different worlds.
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This superpower
can be applied to computation.
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Picture a search task.
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By envisioning a very tall closet
with a million drawers,
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I place an item in one of the drawers.
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How many drawers do you have
to open to find the item?
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In average it will be half a million,
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but if you had access
to a quantum algorithm,
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it would only be 1,000 steps
to find the item.
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How in the world can this be?
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Indeed, it cannot be in a single world.
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So here you see a good example
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of how quantum computing
can attain an advantage
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by performing computations
in parallel worlds.
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Let me show you how to use
a quantum computer in practice.
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So here you see a program in Cirq,
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or Python-based programming language
to express quantum algorithms.
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It looks like sheet music.
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Each line represents a qubit,
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and each box represents an operation.
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When I hit return,
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then it gets transmitted
to our data center
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in Santa Barbara.
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Here you actually see
a live feed of one of our machines.
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Actually, our most powerful quantum
computers now have over 100 qubits.
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There, the operations
get translated into waveforms,
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electrical pulses that control the qubits.
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You see how the waveforms change
as I change the circuit.
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So this is a simple two-qubit circuit
performing quantum search.
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For the programmers among you,
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please note how I find one item
in a database of four
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by only doing a single call
to the database.
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This is something you could not do
on an ordinary computer.
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So what can you do
with quantum computers today?
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We have prepared
interesting quantum states
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and studied their properties.
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This has led to dozens of publications
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in high-impact journals
like Nature or Science.
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Actually, I like to think of it
as creating little pieces of magic.
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For example, one state we prepared
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can be thought of as spawning
a tiny traversable wormhole.
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We can use it to learn
about the physics of wormholes.
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We can throw a qubit in
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and see how it reappears
on the other side.
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We made time crystals.
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That's a cool word, isn't it?
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Like, who doesn't want to have
a time crystal as an earring?
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Time crystals have amazing
physical properties.
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They change periodically in time
without ever exchanging energy
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with the environment.
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That's the closest to a perpetual mobile
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that the laws of physics allow you to get.
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Or a final example, non-abelian anyons.
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This is a mouthful,
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but these are systems
that change the overall properties
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when exchanging two identical parts,
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something humans have never seen before.
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Because envision a little house
made of Lego bricks
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and envision swapping
two bricks that look identical.
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In everyday life,
you would not notice a difference,
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but quantum physicists had predicted
that systems can exist,
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that exchange or change their properties
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when you exchange two identical parts.
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To date, nobody has performed
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a practical application that can only
be done on a quantum computer.
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Despite what you may
have read in the press.
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But today, I'm excited to tell you
that we are completing the design
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of an algorithm that may lead
to first commercial applications.
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This quantum algorithm
performs signal processing
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to enable new ways to detect
and analyze molecules
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using nuclear electronic
spin spectroscopy.
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In time, this may lead to exciting
consumer applications.
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Envision a device akin
to an electronic nose
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in your phone or smart watch.
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Wouldn't it be awesome
if your phone could warn you
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that you step into a room
with dangerous viruses?
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Or if your smart watch could detect
free radicals in your bloodstream
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and tell you it's time
to drink your acai juice,
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or warn you of allergens in food
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or many other truly helpful use cases.
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To unlock more applications,
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you will need to build a large
error-corrected quantum computer.
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Here you see our road map.
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How to build a computer
with a million physical qubits.
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It consists of six milestones.
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and we achieved already the first two.
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Prior to 2019,
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nobody had shown a beyond classical
computation on a quantum computer.
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We were the first to demonstrate it.
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Our chip could perform a computation
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that the then-fastest supercomputer
would have needed 10,000 years to do.
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But recently, we repeated this experiment.
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And now, Frontier,
today's top supercomputer,
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would need one billion years
to perform this computation.
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This dramatic growth in compute power
corroborates Neven's Law,
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which says that the power
of quantum computers will grow
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at a double exponential rate.
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In 2023, we achieved the second milestone.
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We demonstrated again for the first time
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that quantum error correction
is a scalable technology.
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Error correction sounds boring,
but it's crucial.
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Today, our two-qubit operations
have an error rate of 1 in 1,000.
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That means that in every
1,000 steps or so,
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the quantum computer will crash.
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To improve this,
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we combine many physical qubits
to a logical qubit
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to reduce the error rate
to 1 in a billion or even less.
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We are about halfway through our road map,
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and we are optimistic
that we will complete it
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before the end of this decade.
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We have done analytical
and numerical studies
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to predict which algorithms
will be impactful
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on such a large quantum computer.
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A class of applications we like
and we call Feynman's killer app,
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is the simulation of systems
where quantum effects are important.
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This is relevant for designing
more effective,
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more targeted medicines.
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Specifically, we have worked
with a pharmaceutical company
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on algorithms to describe cytochrome P450.
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This group of enzymes metabolizes
about 75 percent of the drugs we take.
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Or the design of lighter,
faster-charging batteries
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that can hold a larger charge
for electric cars
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or even electric airplanes.
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Or to hasten the design of fusion reactors
to help with climate change,
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arguably humanity's most urgent challenge.
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A recent result is a novel algorithm
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that delivers significant speed up
for optimization.
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This is a big deal
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because optimization
problems are ubiquitous
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in engineering, finance
or machine learning.
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A way to think about this
result is in the future,
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when an AI will play chess
or Go against the quantum AI,
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the quantum AI will win.
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This result shows that quantum computers
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will become a must-have capability
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to serve foundational computational tasks.
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I'm also very interested
in the intersection of physics
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and neurobiology.
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Quantum information science
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may enable us to answer
one of humanity's deepest questions:
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What creates conscious experience?
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An attractive conjecture
is that consciousness
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is how we experience the emergence
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of a single classical world
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out of the many
the multiverse is composed of.
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With academic collaborators,
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I have started a program
to experimentally test this conjecture
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using methods of quantum neurobiology.
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If our conjecture is correct,
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this would allow us to expand
human consciousness in space,
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time and complexity.
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In conclusion,
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we are making steady progress
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towards building the world's first
useful quantum computer
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and applying its enormous power
to important challenges.
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A quantum computer will be
a gift to future generations,
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giving them a new tool to solve problems
that today are unsolvable.
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Thank you.
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(Applause)
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