Australian researchers make quantum computing brea
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paving way for world-first chip
Australian scientists have discovered a way to put quantum computing technology into silicon computer chips, paving the way for the first commercial manufacture of the holy grail in superfast computing.
For decades scientists have been trying to turn quantum computing — which allows for multiple calculations to happen at once, making it immeasurably faster than standard computing — into a practical reality rather than a moonshot theory. Until now, they have largely relied on "exotic" materials to construct quantum computers, making them unsuitable for commercial production.
But researchers at the University of New South Wales have patented a new design, published in the scientific journal Nature on Tuesday, created specifically with computer industry manufacturing standards in mind and using affordable silicon, which is found in regular computer chips like those we use every day in smartphones or tablets.
UNSW's patented design modifies the transistors found in regular computer chips to store the binary code of 0 or 1 on the "spin" of a single electron, which works like a tiny compass needle. It builds on previous research that produced the first quantum computing transistor of this type.
However, this is the first time scientists have succeeded in getting two silicon-based transistors to talk to each other to perform calculations through what's known as a "quantum logic gate".
Quantum logic gates have been demonstrated previously using complicated materials such as ions floating in a vacuum, superconducting systems or particles of light (photons), Professor Dzurak said.
"What we've done is demonstrated for the first time that we can do the first quantum calculation on a silicon chip working with two of these quantum bits," he said.
The breakthrough means the building blocks for the first silicon quantum computing chip — which will still need to house hundreds of transistors, not just two — are finally in place. Standard computing chips house around a billion transistors.
Professor Dzurak is "confident" that with the right industry partnership a prototype quantum computing chip could arrive within five years, with the first commercial application likely to be in large-scale data centres.
UNSW dean of engineering Mark Hoffman said the findings could in time create "massive economic and social change and a transformational industry" for Australia.
He drew a parallel with breakthroughs in membrane technologies developed decades ago that paved the way for today's multibillion-dollar micro-filtration industry for water treatment; and UNSW's solar cell research in the 1990s, which had a "profound impact" on today's solar industry, now growing at "over $1 billion per year".
While keeping the intellectual property onshore could reap great economic benefits in itself, quantum computing technology is set to have a major impact on industries such as information technology, finance, security, manufacturing and biotechnology and healthcare, particularly around the development of medicines that use computers to design pharmaceutical compounds, or to speed up trial and error testing.