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D-Wave Previews Quantum Computing Platform With Over 5,000 Qubits (venturebeat.com) 74

An anonymous reader writes: D-Wave Systems, one of the handful firms that is building a quantum computer, today unveiled the roadmap for its 5,000-qubit quantum computer. Components of D-Wave's next-generation quantum computing platform will come to market between now and mid-2020 via ongoing quantum processing unit (QPU) and cloud-delivered software updates. The complete system will be available through cloud access and for on-premise installation in mid-2020.
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D-Wave Previews Quantum Computing Platform With Over 5,000 Qubits

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  • the article wasn't very clear on this.

    • by jythie ( 914043 ) on Wednesday February 27, 2019 @12:24PM (#58189254)
      They generate hype and sweet sweet VC dollars?

      Unless things have improved, their systems are still slower and more expensive than solving the same problem on general digital computers, and probably still slower than using analog computers.
    • Re: (Score:3, Interesting)

      by Anonymous Coward

      the article wasn't very clear on this.

      Yes, they are quantum annealers that are capable of doing discreet optimization problems.

      Protein folding, travelling salesman, quantum chemistry modeling, and artificial neural networks can all benefit from them.

      They will not run Shor's algorithm and crack encryption but the class of problems they can tackle is still has very real world applications.

      • Re: (Score:3, Interesting)

        They will not run Shor's algorithm and crack encryption but the class of problems they can tackle is still has very real world applications.

        In fact, the factoring problem has a particularly nice algorithm [dwavesys.com] in the adiabatic regime. It's just a multiplication circuit, where you clamp the outputs and "run it backwards" to deduce the inputs. It's not Shor's algorithm, but D-Wave is way ahead of the (gate-model quantum) competition in terms of factoring.

    • by garcia ( 6573 )

      It's been tested to work thousands of times better than traditional CPUs at simulated annealing operations; however, research leveraging DWave offerings have been slow to come out. You can reach an article [sciencemag.org] where researchers used DWave technology to conduct their experiments. In addition, there are numerous published papers leveraging DWave tech including application in ML [arxiv.org] and optimization tasks (traffic) [frontiersin.org].

      But, healthy skepticism should setup a box around our confidence in any published research until it's ve

    • by gweihir ( 88907 )

      It separates rich gullible people from their money. No other useful application.

  • The article's numbers are weird. It talks about going from 6 qbits to 15 qbits, and then jumping to 2000 qbits and an expected 5000 qbits. Did I miss a major advance? I thought each qbit grew the difficulty of creation by an order of magnitude, and 15-20 was considered the upper limit for "cost is no object" with current tech.

    • If I'm not completely off, I believe there are 5000 qubits, and each qubit can be connected to 15 other qubits.

      Disclaimer, I'm not a rocket doctor.

    • Re: (Score:3, Informative)

      by Anonymous Coward

      There are two types of machines called quantum computers. The ones with 6-15 qbits are using special "entangled" logic gates that can in theory solve any problem, but getting a usable circuit is very difficult. D-wave is a quantum annealer, meaning that it is meant to solve a particular kind of optimization problem. It's kind of like putting a bunch of odd shaped items into a box and shaking the box. The random movement will over time cause the items to pack more tightly into the box. Only in this

    • The number of qubits is increasing from 2000 to 5000. The connectivity is also increasing from 6 couplings per qubit to 15 couplings per qubit. The connectivity is important because it allows more complex problems to be solved. For example, more qubits means you can solve problems that have more variables. But you can't solve any interesting problems unless the variables interact with each other. More connectivity means you can solve problems with more interactions between the variables.
      • At 15 couplings per qbit, does that mean there's a giant interconnected network in the 5000 qbit computer, or that there are 333 parallel 15 qbit computers?

    • by ceoyoyo ( 59147 )

      DWave's quantum computers aren't like the general purpose ones people usually talk about because all the qubits aren't connected to all the other ones. It's more like a bunch of little quantum processing units all networked together.

      That limits the type of problems it can solve, but it does make it a lot easier to scale up.

      • by gweihir ( 88907 )

        That limits the type of problems it can solve, but it does make it a lot easier to scale up.

        It also makes it a whole lot slower than the best classical algorithms for the same problems and a whole lot more expensive. This device has no applications where it would make sense to use it.

        • Thatâ(TM)s true of all existing quantum computers. The DWave machine is special purpose, but a sufficiently scaled up version can be faster at some things than a conventional computer.

          • by gweihir ( 88907 )

            Because of the way it works, it can actually not scale up. It can do the same-size problem in parallel more time, but a classical computer can do the same. So no advantage at all, not even in the future. The only possible advantage would be cost, but as the D-Wave is much more complicated and has much lower deployment numbers than classical computers, it would probably take several decades of intense and expensive optimization to get its cost for the same performance down past the classical solution, if it

    • by gweihir ( 88907 )

      The 5000 qbits are not entangled or rather only entangled in very small groups. This makes the whole thing a demented stunt.

  • by rnturn ( 11092 ) on Wednesday February 27, 2019 @12:27PM (#58189280)

    ... the stars will all start going out.

  • by OneHundredAndTen ( 1523865 ) on Wednesday February 27, 2019 @01:35PM (#58189658)
    What are the problems that D-Wave has so far managed to solve, that a conventional computer cannot solve just as efficiently and at a fraction of the cost?
    • D-Wave doesn't even make quantum computers, they make quantum annealers. So there is no speedup of course.

  • ought to be enough for anybody.
  • They have a "Quantum Annealer" and it happens to be much slower than the best algorithms for classical computers. All that keeps them alive is clueless morons with too much money and a desperate desire to be at the forefron of things.

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