New world record set in quantum computing simulation

University of Melbourne

Monday, 02 July, 2018


New world record set in quantum computing simulation

Scientists at the University of Melbourne scientists have set a new world record in simulating quantum power on a classical computer, demonstrating more quantum data crunching than any of the existing quantum computer prototypes.

The team, led by Deputy Director of the Centre for Quantum Computation and Communication Technology Lloyd Hollenberg, has simulated the output of a 60-qubit quantum computer, which in general would require up to 18,000 petabytes, or more than a billion laptops, to describe — capabilities well beyond the largest supercomputer.

A quantum computer uses quantum physics to rapidly uncover an answer to a problem by adjusting probabilities simultaneously, while a classical computer uses more time and memory by looking at each potential answer in turn. A full-scale quantum computer in the future will be able to solve problems that range from complicated modelling for use in drug development and weather forecasting to optimising large systems such as transport systems, and may even extend the bounds of machine learning.

University of Melbourne student Aidan Dang developed and ran the university’s record-breaking simulation by asking it to use Shor’s quantum factoring algorithm to find the two prime numbers that when multiplied together equal the semi-prime 961,307. While this factoring calculation can be done on a laptop, the Melbourne team’s simulation was able to solve it as a quantum computer comprising 60 qubits would.

By giving the quantum computer simulation a highly structured mathematical question to solve, rather than something more random, the team did not need to simulate the entire quantum state in order to witness larger-scale quantum computing in action. This enabled the simulation to solve the equation using just 13.8 terabytes of memory at the Pawsey classical supercomputer in Western Australia.

“The simulation used up almost all our allocated computing time at the Pawsey Supercomputing Centre, but we just made it,” Dang said. “We can now use the results to identify clues as to how the first full-scale quantum computers will work.”

Although current quantum computer prototypes are too small to do anything more useful than a classical computer, Professor Hollenberg said this record simulation is an important step in helping researchers get ‘quantum-ready’.

“The capability to simulate quantum algorithms at this level is critical for learning how a quantum computer in the future will physically operate, how the software can work and what sort of problems it can solve,” he said.

“Essentially, academia, government and industry alike need to be quantum-ready as the hardware development occurring globally accelerates. Large-scale quantum computer simulation is an important ingredient in this process.”

Image credit: ©stock.adobe.com/au/zapp2photo

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