Imagine a computer that could crack the most sophisticated network in a mere few seconds. Perfectly model complex weather and biological systems.
What could you do with such computational power? Invent new drugs? Simulations of multiple universes? What about optimizing your investment portfolio?
Now, breakthrough after breakthrough threaten to make these science fiction scenarios science fact.
Just last month, Google made a monumental announcement of “quantum supremacy,” completing a computation that would normally take 10,000 years on the most powerful supercomputers, in just 200 seconds.
Meanwhile, companies like Rigetti computing are edging us ever closer to democratized quantum on the cloud.
But what exactly is quantum computing?
Let’s dive in….
(Note #1: This blog is an excerpt from my next book The Future is Faster Than You Think, co-authored with Steven Kotler, to be released January 28th, 2020.)
A New Kind of Computer
A quantum computer operates in a fundamentally different way from a classical computer.
In classical computing, a “bit” is a tiny chunk of binary information, either a one or a zero.
A “qubit”—or a quantum bit—is the newer version of this idea. Unlike binary bits, which are an either/or scenario, qubits utilize “superposition,” which allows them to be in multiple states at once.
Think of the two options of flipping a coin: heads or tails. Now think about a spinning coin—where both states flash by at once. That’s superposition.
And superposition means power. A lot of power.
While a classical computer requires thousands of steps to solve a hard problem, a quantum computer can accomplish that same task in only two or three steps.
To put this in perspective, IBM’s Deep Blue was able to beat world champion Gary Kasparov at chess by examining 200 million moves per second.
A quantum machine can bump that up to a trillion or more.
Google’s Quantum Supremacy
If a quantum computer is vastly more powerful than a classical computer, then Google’s quantum supremacy announcement is a massive game-changer for the future of computing.
Using a machine called Sycamore with a chip consisting of 53 qubits, Google’s team of researchers was able to perform a task called random circuit sampling.
This entails performing random operations on the qubits, “literally as if the code of their program was chosen randomly,” as explained by computer scientist Bill Fefferman of the University of Chicago.
The values of all qubits were then measured, and the whole process was repeated multiple times. The resulting distribution is nonrandom due to quantum effects and is exorbitantly challenging (not to mention time-consuming) to calculate with classical computers.
Ultimately, it took Sycamore 200 seconds to repeat the sampling process a million times, while a top-of-the-line classical supercomputer would take close to 10,000 years to complete the same process.
But Google is far from alone in the race to scalable quantum supremacy….
The Story of Rigetti
The coldest place in the universe is located in sunny California.
On the outskirts of Berkeley, inside an oversized warehouse, hangs a large white pipe. It’s a human-made contraption, a next-generation cryogenic refrigerator cooled to .003 Kelvin, or just north of absolute zero.
The pipe belongs to Rigetti Computing, the next contestant aiming to build useful quantum computers.
The company got going in 2013, when a physicist named Chad Rigetti decided that quantum computers were a lot closer to prime time than many suspected, and that he wanted to be the one to push the technology over the finish line.
In pursuit of his vision, Rigetti left a comfortable job as a quantum researcher at IBM, raised over $119 million in funding, and built the coldest pipe in history. Over fifty patent applications later, Rigetti now manufactures integrated quantum circuits that are directly linked to a quantum computer in the cloud.
One of the biggest and most exciting aspects about Rigetti, however, is their push towards democratization of quantum computing.
Right now, if you go to Rigetti’s website (www.rigetti.com), you can download Forest, their quantum developer’s kit. The kit provides a user-friendly interface to the quantum world.
With it, almost anyone can write a program and run it on Rigetti’s thirty-two-qubit computer. To date, over 120 million programs have already been run.
And other companies are fast following suit, as Microsoft, IBM, and Google have now rolled out quantum cloud services.
So where are we now, and where are going?
Google’s announcement has caused a major stir in the quantum computation community.
Indeed, the very notion of “quantum supremacy” is under scrutiny. “Supremacy” implies that quantum computers will replace traditional computation, rather than serve as a supplement.
By contrast, another term often used (proposed by Rigetti) is “quantum advantage.” According to the company, this concept is demonstrated when an algorithm run on a quantum computing platform “has either a faster time to solution, a better quality solution, or lower cost of classical compute compared to the best classical algorithm.”
In either case, quantum computation offers tremendous quantitative advantages over classical computers in a range of problem domains.
To give an idea of scale: if all the atoms of the universe were each capable of storing one bit of information, an eighty-qubit computer would have more information-storage capacity than all the atoms in the universe.
And already, current state-of-the-art quantum computers, including Google’s Sycamore and IBM’s Q53, have reached a count of 53 qubits.
Yet today, we have no concrete idea of what innovations might arise once quantum computing matures at scale. But what we do know is tantalizing.
Because chemistry and physics are quantum processes, computing in qubits will usher in what Oxford’s Simon Benjamin calls “a golden age of discovery in new materials, new chemicals, and new drugs.”
It will thrust aside today’s computing constraints to artificial intelligence, fundamentally transform cybersecurity, and allow us to simulate systems of unprecedented complexity.
As Chad Rigetti explains, “[The technology] change[s] the economics of research and development. Say you’re trying to create a new cancer drug. Instead of building a large-scale wet lab to explore the properties of hundreds of thousands of compounds in test tubes, you’re going to be able to do much of that exploration inside a computer.”
In other words, the gap between experimental question and any new solution—whether novel drug, optimized material, or personalized product—is about to become a whole lot smaller.
Brace yourself. The era of democratized, scalable, and cloud-accessible quantum computing has just begun.
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