Manufacturing will be key to quantum computing, but don’t throw out your current processor just yet.
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Category: computing
Intel says it is shipping an experimental quantum computing chip to research partners in The Netherlands today. The company hopes to demonstrate that its packaging and integration skills give it an edge in the race to produce practical quantum computers.
The chip contains 17 superconducting qubits—the quantum computer’s fundamental component. According to Jim Clarke, Intel’s director of quantum hardware, the company chose 17 qubits because it’s the minimum needed to perform surface code error correction, an algorithm thought to be necessary to scaling up quantum computers to useful sizes.
Intel’s research partners, at the TU Delft and TNO research center Qutech, will be testing the individual qubits’ abilities as well as performing surface code error correction and other algorithms.
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At its Ignite developer conference yesterday, Microsoft announced that it has developed a new programming language designed to not only run on current computers but on the most advanced machines of the future: quantum computers. Ignite is running from Sept. 25–29 in Orlando.
Like many other of the world’s largest tech companies, Microsoft has been working to develop quantum computers that could handle massively complex problems in minutes or seconds. Unlike today’s conventional devices that use the digital bits “0” and “1,” quantum computers use qubits that can act as 0s, 1s or both simultaneously.
Microsoft said its new quantum computing language, which has yet to be named, is “deeply integrated” into its Visual Basic development environment and does many of the things other standard programming languages do. However, it is specifically designed to allow programmers to create apps that will eventually run on true quantum computers.
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It may sound like the plot from the latest science fiction blockbuster, but uploading your brain onto a computer to achieve immortality could soon become a reality.
In a new interview, Professor Brian Cox said that the technique, known as ‘technological singularity’ could be available sooner than you think.
Professor Cox said that he found ‘no reason at all’ why human intelligence couldn’t be simulated by computers — although he did not express a timeline for this to happen.
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These recent advances in hardware have highlighted a chicken-and-egg problem: what use will quantum machines be if there is no software to run on them? That accounts for this year’s race to win over developers, who will need to learn a completely new programming approach in preparation for the future machines.
Problem is to persuade developers to make programs for machines that don’t yet exist.
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Microsoft, Facebook, and the telecoms infrastructure company Telxius have announced the completion of the highest capacity subsea cable to ever cross the Atlantic Ocean. The cable is capable of transmitting 160 terabits of data per second, the equivalent of streaming 71 million HD videos at the same time, and 16 million times faster than an average home internet connection, Microsoft claims. The cable will be operational by early 2018.
Called Marea, which is Spanish for “tide,” the 4,000 mile long subsea cable lies 17,000 feet below the ocean surface and extends between Virginia Beach, Virginia and the city of Bilbao in Spain. Marea also stretches a route south of most existing transatlantic cables. Because of this, Microsoft says the cable will provide resiliency for those living in the US and Europe by safeguarding against natural disasters or other major events that might cause disruptions to connections like those seen during Hurricane Sandy. More importantly to Microsoft and Facebook: both companies have large data center operations in Virginia.
“Marea comes at a critical time,” said Brad Smith, president of Microsoft. “Submarine cables in the Atlantic already carry 55 percent more data than trans-Pacific routes and 40 percent more data than between the US and Latin America. There is no question that the demand for data flows across the Atlantic will continue to increase.” For most of the route, the cable — made up of eight pairs of fiber optic cables enclosed by copper — lays on the ocean floor. Some parts are buried to protect from shipping traffic, usually in areas closer to the shore.
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