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Palo Alto, CA - March 13, 2017 - D-Wave Systems Inc., the leader in quantum computing systems and software, announced that Google, NASA, and Universities Space Research Association (USRA) have elected to upgrade their D-Wave 2X™ quantum computer to the new D-Wave 2000Q™ system, under the terms of their multi-year agreement, to support QuAIL's pioneering research on how quantum computing can be applied to artificial intelligence, machine learning, and difficult optimization problems. “The new system will be the third generation of D-Wave technology installed at Ames,” said D-Wave CEO Vern Brownell. “We are pleased that Google, NASA, and USRA value the increased performance embodied in our latest generation of technology, the D-Wave 2000Q system, for their critical applications.” Since 2013, when the first D-Wave system was installed at Ames, scientists at Google, NASA, and USRA have been using it for a broad range of complex problems such as web search, speech recognition, planning and scheduling, air-traffic management, robotic missions to other planets, and support operations in mission control centers. “We appreciate that the new processor offers more controls for each qubit, which enables us to experiment with new quantum-enhanced optimization and sampling algorithms,” said Hartmut Neven, Director of Engineering for Google and Head of the Quantum Artificial Intelligence Lab. “Scientists at NASA Ames continue to explore the potential of quantum computing-and quantum annealing algorithms in particular-to aid in the many challenging computational problems involved in NASA missions,” said Eugene Tu, Center Director at NASA’s Ames Research Center. “NASA looks forward to advancements in this technology to achieve these goals.” “Through USRA, the broader research community can get access to D-Wave’s state-of-the-art quantum computer, and collaborate with scientists at NASA, Google, and other universities,” said David Bell, Director, USRA’s Research Institute for Advanced Computer Science. “Since the installation of the first D-Wave system in 2013, researchers from around the world have been able to conduct cutting-edge research using technology unavailable elsewhere.” The D-Wave 2000Q system will be installed at Ames later this year. About D-Wave Systems Inc. D-Wave is the leader in the development and delivery of quantum computing systems and software, and the world’s only commercial supplier of quantum computers. Our mission is to unlock the power of quantum computing for the world. We believe that quantum computing will enable solutions to the most challenging national defense, scientific, technical, and commercial problems. D-Wave’s systems are being used by some of the world’s most advanced organizations, including Lockheed Martin, Google, NASA Ames, USRA, USC, and Los Alamos National Laboratory. With headquarters near Vancouver, Canada, D-Wave’s U.S. operations are based in Palo Alto, CA and Hanover, MD. D-Wave has a blue-chip investor base including Goldman Sachs, Bezos Expeditions, DFJ, In-Q-Tel, BDC Capital, Growthworks, Harris & Harris Group, International Investment and Underwriting, and Kensington Partners Limited. For more information, visit: www.dwavesys.com.
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How NASA uses quantum computing for space travel and robotics Quantum computing is still in its infancy, even though the idea of a quantum computer was developed some thirty years ago. But there are a whole load of pioneering organizations (like Google) that are exploring how this potentially revolutionary technology could help them solve complex problems that modern-day computers just aren’t capable of doing at any useful speed. One such organization is NASA, whose use of D-Wave Systems quantum computing machines is helping it research better and safer methods of space travel, air traffic controls and missions involving sending robots to far-off places, explained Davide Venturelli, a science operations manager at NASA Ames Research Center, Universities Space Research Association. I’ll be speaking with Venturelli on stage at Structure Data 2015 from March 18-19 in New York City and we’ll be sure to cover how NASA envisions the future of quantum computing. The basic idea of quantum computing is that quantum bits, or qubits - which can exist in more than two states and be represented as both a 0 and 1 simultaneously - can be used to greatly boost computing power compared to even today’s most powerful super computers. This contrasts with the modern-day binary computing model, in which the many transistors contained in silicon chips can be either switched on or off and can thus only exist in two states, expressed as a 0 or 1. With the development of D-Wave Systems machines that have quantum computing capabilities (although researchers argue they are not true quantum computers along the lines of the ones dreamed up on pen and paper in the early 1980s), scientists and engineers can now attempt to solve much more complex tasks without having to perform the type of experiments used to generate quantum phenomena, explained Venturelli. However, these machines are just the tip of the quantum iceberg, and Venturelli still pays attention to ground-breaking research that may lead to better quantum devices. NASA hopes to use the machines to solve optimization problems, which in its most basic terms means finding the best solution out of many solutions. One such example of an optimization problem NASA has focussed on deals with air-traffic management in which scientists try to “optimize the routes” of planes in order to “make sure the landing and taking off of airplanes in terminals are as efficient as possible,” said Venturelli. If the scientists are able to route air traffic in the best possible way, there’s a good chance they can reduce the dangers of congested skies. Davide Venturelli Davide Venturelli NASA also wants to use quantum computing to help with automated planning and scheduling, a subset of artificial intelligence that NASA uses to plan out robotic missions to other planets. NASA typically plans out these type of endeavors ten years in advance, said Venturelli. The goal is to plan out the mission of the robots far in advance because realtime communication with the robots just isn’t feasible given how far away other planets are from the Earth. Using quantum optimization, NASA scientists will have new tools to basically forecast what may occur during the mission and what would be the best possible plan of attack for the robots to do their work. “We have some missions where we imagine sending multiple robots to planets and these robots will need to coordinate and will need to do operations like landing and such without realtime communication,” said Venturelli. Scientists need to “maximize the lifetime of the batteries” used by the robots as they perform tasks on the planets that may include drilling or using infrared thermometers to record temperatures, so careful planning of how the robots do their tasks is needed in order to ensure that no time is wasted. This all involves a lot of variables that normal computers just aren’t up-to-speed to process and could be a fit for quantum computing. “[The robot] has to figure out what is the best schedule and figure out if he can recharge and when to go in a region where it is dark and a region where there is water,” said Venturelli. “We need to preplan the mission.”
Jumpstart quantum application development with Leap: Free access: free, immediate access to a D-Wave 2000Q quantum computer Familiar software: Ocean software development kit (SDK) with suite of open source Python tools and templates Hands-on coding: interactive examples and Jupyter notebooks with live code, equations, visualizations, and narrative text Learning resources: comprehensive live demos and educational resources Community support: community and technical forums for developer collaboration Comprehensive Environment Leap is more than just access to a QPU. It also includes: Engaging, animated demos to explain quantum computing applications and introduce the programming model. Interactive learning materials that include live code, equations, visualizations and narrative text to jump-start quantum application development. Open-source Ocean SDK, which helps you use the system and develop your own code within the familiar language of Python. Access to the growing community of developers who want to build the first quantum killer app. Detailed documentation explaining everything from the physics of quantum annealing to how to use the Ocean software. Practical Approach Get started writing useful quantum applications: You do not need to be a quantum physicist to write software for the D-Wave system. From beginner to advanced, any developer can get started building and running quantum applications. More than 150 early applications across domains like optimization, AI, and materials sciences already exist on D-Wave systems today.
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