Quantum Computer | US Computer Acadmey

 IBM to Open Quantum Computer 

What is a Quantum Computer?

Quantum computers operate differently from traditional computers. Fundamentally speaking, it doesn’t operate on binary logic  that is, ones and zeroes but instead through using Qubits, which can be in both states at once due to quantum superposition. This unique property allows it to be all combinations of ones and zeroes all at the same time, allowing for new approaches to solving complex mathematical problems
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Because it radically diverges from traditional computing design, improving performance requires new thinking, too. Whereas today’s computer performance still scale linearly according to Moore’s Law, IBM’s quantum computer’s performance increases exponentially. This is closely entwined with its operation: as opposed to finding the fastest way to process certain tasks, quantum computing is all about exploring all the possible permutations to find answers to a problem a classical computer could never solve alone.

Without prior knowledge, it can be difficult to guess the IBM quantum computer’s utility based on its appearance. Suspended in a cylinder isolated in a dual-layer glass chamber designed to minimize radio interference, vibration, and help maintain optimal working temperatures, the computer operates at near absolute zero. Even in its early state, Crowder says its meticulous upkeep requirements draws no more power than a standard server rack.

Where will it be useful?

The paramount focus of the new research center is to research and develop quantum computing. IBM says over 180 research papers have been published based on the findings of over 10 million experiments ran on its public systems.
Crowder says that quantum computers will be useful in scientific modelling. A use case could be simulation chemistry to test different chemical compounds such as battery catalysts, photo resistors, and petroleum chemical reactions. Quantum computing can also benefit the financial sector by improving risk and portfolio analysis.

Quantum computing’s immense potential is continually attracting industrial interest worldwide. A few notable members of the IBM Q Network include JP Morgan Chase, Exxon-Mobil, Mitsubishi chemical labs, CERN, and Samsung. A number of universities, including the University of Waterloo, University of Notre Dame, Virginia Tech, and the University of Tokyo has joined the IBM Q Network on April 25.

When will it be widely commercialized?

Although it has taken great developmental strides, quantum computers still need some time before they can be deployed for mass commercial use. Also, it’s unlikely that it will be turned into personal devices. Crowder explained that its operating requirement in which it wouldn’t entangle with the rest of the universe is simply too stringent to be confined into a small form factor.

The Poughkeepsie computation center will open sometime in the second half of this year. IBM Q ambassador Mehdi Bozzo-Rey will be presenting at IDC Directions 2019 on May 2 in Toronto to speak more about IBM’s quantum computing progress. ITWC is a partner in the event.