Name: 量子計算將如何改變世界! (How Quantum Computing Will Change The World!)
Uploaded: 2021-01-14T05:21:15.000Z
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What the heck is quantum computing? And should I care?

I dont know if you’ve noticed lately, but there is a new wave of computer technology

being quietly developed in basement labs and secret company offices. I’m talking about

“quantum computing”. Companies like Google, Microsoft and IBM, not to mention the U.S.

government, have started investing heavily in the development of quantum computers in

the last few years and news of their investments is slowly leaking out into mainstream media.

So what is a quantum computer and why are all of the major powers that influence our

lives interested in them? Well the short answer is that they promise to be faster, safer,

and better at solving certain kinds of problems than our trusty laptops. but that’s only

First off lets figure out what it means for something to be “quantum”. Sometimes “quantum”

is used interchangeably with “small” but that’s not accurate. Quantum things are

happening on all length scales all the time--the distinction is that the likelihood that we

notice these corrections on top of Newton’s “classical” physics decreases rapidly

At the quantum level, a particle can teleport, travel backwards in time, be “entangled”

with a distant cousin, and a hypothetical cat in a box can be both alive and dead. This

apparently fantastical behavior is all possible because of science… well, physics really

Most relevant to our quantum computing plot is the idea of “superposition” which transcends

classical deterministic outcomes: alive or dead, heads or tails, 0 or 1, to describe

these states as a distribution of probabilities: “the cat has a 70% probability of being

alive” and as a funny outcome of the science we don’t get a fixed answer until we actually

open the box and observe the cat, take a measurement, or otherwise ask the system for a specific

A computer capable of exploiting this and other quantum properties, like entanglement,

would not be constrained by a classical computer’s need to perform calculations sequentially

because quantum bits would be capable of existing in a probability of many states and thus,

be much better at tasks like simulating molecular bonds, performing rapid searches of complicated

databases, or factoring large numbers very quickly.

These examples may seem silly or irrelevant until you learn, for instance, that factorization

is prohibitively time-consuming for a classical computer, which is why it forms one common

approach to data encryption. Now, quantum computers are looking pretty good, especially

if you have an interest in National Security.

So how close are we to a programmable quantum computer? Noooooot that close. You’ll probably

use one in your lifetime, but don’t run out to find one in the store just yet. Research

in this area is happening at a rapid rate and has even resulted in the Nobel Prize for

Physics in 2012, but scientists still have a long way to go. Challenges arise both from

the difficulty in control and manipulation of quantum states, something that makes encoding

quantum information difficult, as well as the vulnerability of that information to disturbance

Nevertheless, scientists like those at Caltech’s Institute for Quantum Information and Matter,

are working at the cutting edge of our current knowledge to make quantum computing a reality.

And as for it’s potential, being able to simulate molecular interactions to create

optimized materials on demand seems reason enough for Google, Microsoft and IBM to throw

tons of money at quantum computing, But as one scientist recently reminded me: Who would

have been able to foresee the impact of Facebook or the internet when classical computing was

What do you think? Will quantum computation change the world? Subscribe to DNews and let

us know in the comments down below. And come find me on twitter @PolycrystalhD