Supercomputing

NASA's quantum lab could be giant leap for computing

atom

Research at NASA's Quantum Artificial Intelligence Laboratory – home to one of the few quantum computers in the world -- could help unlock the potential of quantum approaches to optimizing air traffic control, robotics, pattern recognition, and mission planning and scheduling.

The machine that has the interest of NASA and partners Google and the Universities Space Research Association (USRA) is the D-Wave 2, a 512-qubit quantum computer built by D-Wave Systems at NASA's Ames Research Center.

In traditional computing, data is encoded in the binary bit – either as a 1 or a 0 – but a quantum computer's use of quantum mechanical phenomena allows a quantum bit, or "qubit," to represent a one, zero or both values simultaneously. There is no classical computing approach equivalent to the way the qubit allows information to be processed, so advanced quantum computers may one day quickly solve problems that would take even today's fastest supercomputers millennia to decode.

NASA will focus first on getting acclimated to the quantum computer, developing artificial intelligence and quantum-classical hybrid algorithms, quantum computer acceptance tests and problem decomposition and hardware embedding techniques.

"The quantum computer isn't designed to be a replacement for traditional computers and supercomputers. It's designed to be used in conjunction with them," said Vern Bronwell, CEO of D-Wave Systems. The company sold its first D-Wave system to Lockheed Martin in 2011, garnering significant attention -- and some criticism from skeptics, who questioned whether D-Wave's quantum claims were for real.

In many ways, the NASA-Google-USRA partnership over D-Wave 2 serves notice to the scientific community that it is legitimate.

One of NASA's initial applications with the quantum computer is exploring new computational techniques in the search for other Earth-like planets outside the solar system. NASA's now-inoperable Kepler telescope, for example, produced a slew of transit data that traditional computers try to make sense of with the use of heuristic algorithms that find approximate solutions when classic methods can't find exact solutions.

NASA said this computational limitation implies that some planets – smaller ones that are close to Earth's size – go undiscovered, but suggests quantum approaches could find planets that were otherwise undetectable.

Bronwell said NASA scientists have already found planets by running some data from Kepler in the quantum computer. They were not new planets, he said, but the find "verified the machine works."

Interest in quantum computing is likely to increase in the scientific community as advancements are made with D-Wave 2, but the intelligence and defense communities have also taken note of supercomputing alternatives.

The intelligence community's research arm, the Office of Intelligence Advanced Research Projects Activity, recently developed a program that aims to create superconducting supercomputers that use less energy and are far faster than today's supercomputers.

Perhaps not coincidentally, D-Wave 2's Vesuvius processor operates at 20 millikelvin, or just above absolute zero.

About the Author

Frank Konkel is a former staff writer for FCW.

The Fed 100

Save the date for 28th annual Federal 100 Awards Gala.

Featured

  • computer network

    How Einstein changes the way government does business

    The Department of Commerce is revising its confidentiality agreement for statistical data survey respondents to reflect the fact that the Department of Homeland Security could see some of that data if it is captured by the Einstein system.

  • Defense Secretary Jim Mattis. Army photo by Monica King. Jan. 26, 2017.

    Mattis mulls consolidation in IT, cyber

    In a Feb. 17 memo, Defense Secretary Jim Mattis told senior leadership to establish teams to look for duplication across the armed services in business operations, including in IT and cybersecurity.

  • Image from Shutterstock.com

    DHS vague on rules for election aid, say states

    State election officials had more questions than answers after a Department of Homeland Security presentation on the designation of election systems as critical U.S. infrastructure.

  • Org Chart Stock Art - Shutterstock

    How the hiring freeze targets millennials

    The government desperately needs younger talent to replace an aging workforce, and experts say that a freeze on hiring doesn't help.

  • Shutterstock image: healthcare digital interface.

    VA moves ahead with homegrown scheduling IT

    The Department of Veterans Affairs will test an internally developed scheduling module at primary care sites nationwide to see if it's ready to service the entire agency.

  • Shutterstock images (honglouwawa & 0beron): Bitcoin image overlay replaced with a dollar sign on a hardware circuit.

    MGT Act poised for a comeback

    After missing in the last Congress, drafters of a bill to encourage cloud adoption are looking for a new plan.

Reader comments

Fri, Nov 1, 2013 Joe

Hopefully it helps them, but the good thing is that 20 years from now the average joe might be using this kind of computer to keep moores law going strong.

Wed, Oct 30, 2013 D Gibbons NYC

It might seem bizarre now, but with quantum processors we will eventually accomplish some incredible things, like run computer simulated universes that are indistinguishable from our own “real” universe, even complete with simulated minds. There is a new book that discusses the implications D-Wave's advances with quantum computers (i.e., “On Computer Simulated Universes”) and advances concepts such as the Computer Simulated Universes Evolutionary Hypothesis. With many active simulations, there would be a wide range of physical properties differing from universe to universe. Universes with more positive physical traits to support life would produce better environments for more advanced civilizations to evolve to the point where they themselves would create their own computer simulated universes. And this process would continue. So over a long period of time, universes would evolve with the physics more favorable for life. Solomon argues that universes, over time, have been naturally selected for particular physical properties, with an end result of creating more and more habitable and longer-lived universes. This line of reasoning explains how the laws of physics might actually evolve relying on a process somewhat similar to human evolution.

Please post your comments here. Comments are moderated, so they may not appear immediately after submitting. We will not post comments that we consider abusive or off-topic.

Please type the letters/numbers you see above

More from 1105 Public Sector Media Group