How do we create a Quantum Internet?

Is life analogue or digital? We live in a digital age, so the answer might seem obvious. Think again. Reality is not digital – it’s quantum. Modern computers are only digital because the analogue subatomic world is too complex to understand.

Cue the quantum computer, where ones and zeros coexist as quantum bits – or qubits – and where packets of data are replaced by encoded light cables of myriad quantum states simultaneously. Quantum computers are magnitudes more powerful than present machines, and that can only mean one thing: a quantum internet.

NASA wants to use quantum computing for calculating space missions
NASA wants to use quantum computing for calculating space missions (Image Credit: NASA)

What is quantum computing?

Get ready for some subatomic awesomeness. Classical digital computers use transistors to process information in various sequences of 0s and 1s. Transistors are merely switches that switch on or off to produce a 0 or a 1, thus producing binary computer language. More transistors means more processing power, with the Intel Broadwell-EP Xeon – at 7.2 billion transistors – the current market leader.

Quantum computers use the laws of quantum mechanics to offer endless possibilities thanks to the fact that tiny particles such as electrons and photons can be in multiple states – not just one and zero, but both at the same time. This is called superposition. So instead of on or off ‘bits’ of classical computing, we get qubits, which can be 0, or 1, or both simultaneously.

100 million times faster

Extrapolate how many more calculations a quantum computer is capable of simultaneously and you get this stunning result: a 500 qubit computer could perform more calculations in a single step than there are atoms in the observable universe. Dealing in qubits essentially means that a quantum computer can operate 100 million times faster than traditional computers, solving a problem in a split-second that would take a regular digital computer thousands, if not millions, of years to calculate.

“A lot of computationally intensive processes such as genome modelling, drug research and weather forecasting will benefit enormously where lots of small and simultaneous computations are required,” says Andersen Cheng, CEO of cybersecurity startup Post-Quantum. “It will also enable many financial modelling and trading analytics to be supercharged for financial gains.”

So it’s no surprise that even though quantum computing is still firmly in the research phase, one company now sells them.

D Wave is already selling quantum computers
D-Wave is already selling quantum computers (Image Credit: D-Wave)

On sale now: quantum computers

D-Wave Systems, based in Canada, is the first quantum computer manufacturer. There are four of its latest D-Wave 2X systems in existence: at the company’s facility in Burnaby, British Columbia, at the USC-Lockheed Martin Quantum Computing Centre in Los Angeles, at NASA’s Ames Research Centre in Mountain View, California, and at the US Energy Department’s Los Alamos National Laboratory in New Mexico (though the latter is still under construction).

Probably the most famous is the one held by NASA, which is a collaboration between NASA’s Quantum Artificial Intelligence Laboratory (QuAIL) and Google. This D-Wave 2X – like the others – is a 1,098-qubit quantum computer. Shielded to 50,000 times less than Earth’s magnetic field in a vacuum facility, the D-Wave 2X is cryogenically cooled to minus 460 degrees Fahrenheit, about 180 times colder than interstellar space. Quantum computers need to be cold – absolute zero, to be precise – and shielded from any electromagnetic interference.

D Wave has created the first 1 000 qubit computer
D-Wave has created the first 1,000-qubit computer (Image Credit: D-Wave)

A quantum cloud

The other major quantum computing surge is coming from IBM, which has developed the world’s first quantum computing platform at the IBM T.J. Watson Research Center in New York. It’s been accessible since May on the IBM Cloud.

Although it ‘only’ has a five-qubit quantum processor, the aim is to increase the compute power to 50 qubits, the point where IBM thinks it will outperform all of the current top 500 supercomputers put together.

Quantum computing is becoming a reality and it will extend computation far beyond what is imaginable with today’s computers,” says Arvind Krishna, senior vice president and director at IBM Research. “This moment represents the birth of quantum cloud computing.”

Top Image: IBM’s five-qubit processor (Image Credit: IBM)

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