Scientists Share First-Ever Design for Quantum Computing Chip

Has someone cracked the theoretical code of quantum computing?  A team from Australia are claiming to have done so by producing what is believed to be the world’s first complete quantum computer chip design.  Right now, it’s only a design, and not an actual functioning quantum computer chip.

Now will come the test of the design as researchers attempt to build the newly designed chip.

World’s First Complete Quantum Computer Chip Design Revealed

A team of Australian scientists from the University of New South Wales (UNSW) has made a significant breakthrough in the adoption of quantum computing on a grand scale. By reworking the architecture of microprocessors we know, the scientists were able to create the first-ever design of a complete quantum computer chip that allows quantum calculations to be performed using a silicon-based material……

The new quantum computer chip design, which could pave the way towards handling millions of ‘qubits’, short for quantum bits, uses on and off operations that are similar to those used to select bits in standard microprocessors. In simpler terms, the chip’s design basically charts the same engineering pathway used in today’s desktops, laptop PCs or open smartphone platforms such as the iPhone to perform quantum operations.

The difference however, when it comes to the quantum operating part of the equation are qubits. Unlike a standard ‘bit’ in a traditional computer, qubits, as super versions of bits, offer exponentially more processing power. This is based on the fact that these units of quantum information can be in two states or spin in two directions simultaneously, 0 and 1, at any given time. A standard computer bit on the other hand, can be in one and only one of these states.While the two-state property – also known in quantum mechanics as ‘superposition’ – enables quantum computers to be exponentially faster than traditional computers, the drawback is that it’s extremely difficult to achieve and sustain a qubit in a superposition state which typically lasts a tiny fraction of a second. In fact, physicists are currently able to pack less than 50 stable qubits onto a chip. While that’s a significant achievement in the filed of quantum computing, the reality is that hundreds of thousands, if not millions of qubits are needed to achieve a practical, large-scale quantum technology. The reason for our current limited qubit-packing chip capability consists in the fact that qubits exist in a delicate, zen-like state of superposition which makes them extremely fragile, unstable and prone to error. Any tiny nudge from a jiggly atom next door can knock them off balance. Unless, qubits are connected to a system that defines their properties, even the slightest environmental interference can be amplified to wrong answers.

To overcome this and make qubits more robust, Dzurak came up with new error-correcting codes that allow multiple quntum bits to store a single piece of data.

“Our chip blueprint incorporates a new type of error-correcting code designed specifically for spin qubits, and involves a sophisticated protocol of operations across the millions of qubits,” he said.

“It’s the first attempt to integrate into a single chip all of the conventional silicon circuitry needed to control and read the millions of qubits needed for quantum computing.”

Dzurak also said that as they move towards the chip’s initial manufacturing process, further design modifications are to be expected.

“All of the key components that are needed for quantum computing are here in one chip,” he added.

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