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UPDATE - D-Wave Demonstrates Large-Scale Programmable Quantum Simulation
[July 12, 2018]

UPDATE - D-Wave Demonstrates Large-Scale Programmable Quantum Simulation


BURNABY, British Columbia, July 12, 2018 (GLOBE NEWSWIRE) -- D-Wave Systems Inc., the leader in quantum computing systems and software, announced the publication of a significant scientific result in the peer-reviewed journal Science [Vol. 361, Issue 6398, July 13 2018]. The article, titled “Phase transitions in a programmable spin glass simulator,” details how a D-Wave 2000Q™ quantum computer was used to predict phase transitions within a particular quantum mechanical system known as the transverse field Ising model. This work has significantly raised the bar in regards to size and complexity of the problems addressed by fully programmable quantum computers. The D-Wave system is capable of programming the individual interactions between spins, whereas prior work with other quantum devices was limited to studying systems in which those interactions could not be individually programmed.

In the work described in the Science article, researchers used a 2048-qubit D-Wave quantum computer to study the transverse field Ising model on 3-dimensional simple cubic lattices up to dimensions of 8x8x8 (512 quantum spins). The magnetic phases, and more importantly the phase transitions, were correctly identified within the 3-dimensional space as a function of quantum mechanical energy scale, the strength of interactions between spins, and disorder among the programmable interactions.

E.H. “Ned” Allen, Ph.D., Chief Scientist and Corporate Senior Fellow at Lockheed Martin, commented on the work described in Science:

Over the past two years, D-Wave scientists and engineers have accomplished a premier goal of scientific computing: characterization of the phase behavior of a genuinely new material not found in nature by a precisely controlled quantum computer used as a simulator (see R. Harris et al, [Vol. 36, Issue 6398, July 13 2018]). While it’s not a demonstration of the “quantum supremacy” sought by pundits of quantum computing, it is a more important accomplishment because the problem they’ve attacked is one of immediate significance to today’s advanced technology sectors and it is the first truly useful application of a quantum computer. A crucial contribution of the Harris group’s work, then, is that it shows us how to explore the behavior of novel system designs without having to completely understand them first, as we must to write a useful digital simulation code. D-Wave’s tools presented in the paper are useful in initial conceptualization and invention – not just analysis.



According to scientists at D-Wave, this work is important in the following regards:

  • The demonstration of phase transitions as a function of quantum mechanical energy scale is strong evidence the D-Wave quantum system is able to perform quantum simulations.
  • The results demonstrate that the embedded 3-dimensional system, whose connectivity is vastly different from that of the physical layout of qubits within the QPU, behaves as expected.
  • The experimental techniques used in this study have motivated new work to search for signatures of long-range correlations between quantum mechanical degrees of freedom in the vicinity of the observed phase transitions. Such correlations are not only of scientific interest, but are expected to be critical to realizing a computational advantage when using D-Wave’s quantum computers on a broad range of computation problems of commercial utility.

“This work represents an important milestone for quantum computing, because it is the first time physics of this kind has been simulated in a scalable architecture at such a large scale,” said Vern Brownell, CEO of D-Wave. “It also provides unprecedented validation for annealing quantum computing, which is the basis of D-Wave’s quantum technology.”


In 1982, the theoretical physicist Richard Feynman proposed the use of an engineered quantum system, a so-called quantum simulator, as a quantum computer to study computationally challenging quantum mechanical problems. The key insight brought forth by Feynman was that, at its core, nature is quantum mechanical and that simulating nature would be much more efficient if the computer used to perform that simulation were likewise quantum mechanical. While many quantum mechanics calculations for even modest-sized systems become intractable using classical digital computing technologies, a quantum computer can successfully perform those computational tasks with relative ease. Thus, a practical large-scale quantum computer will be a key enabling technology for advancing many branches of sciences and engineering.

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, Los Alamos National Laboratory, and Oak Ridge National Laboratory. With headquarters near Vancouver, Canada, D-Wave's US operations are based in Palo Alto, CA and Hanover, MD. D-Wave has a blue-chip investor base including PSP Investments, Goldman Sachs, Bezos Expeditions, DFJ, In-Q-Tel, BDC Capital, Growthworks, 180 Degree Capital Corp., and Kensington Capital Partners Limited. For more information, visit: www.dwavesys.com.

dwave@launchsquad.com

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