Australian Researchers Devise Fault-Tolerant Quantum Computer

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Australian Researchers Devise Fault-Tolerant Quantum Computer

Posted by timothy on Sunday November 14, 2010 @11:07AM from the majority-rules dept.

schliz writes "Researchers have devised a theoretical quantum computer that could function even if one in four qubits were missing. The design is claimed to be the first that tolerates both qubit loss and decoherance to this extent. It performs calculations by measuring, rather than manipulating qubits, so there are fewer points of failure."

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Is this news? by kasperd · 2010-11-14 11:31 · Score: 3, Interesting

I recall hearing a talk about how to do fault tolerant quantum computing already six years ago. The main points I remember from the talk was that there was a theoretical limit to how much redundancy you could introduce as if you could reconstruct from half the qubits then you could clone the state, which is known to be impossible. I don't remember how large the gap was between the upper and lower bounds were, but they proved that at a certain error rate their redundant construction would improve the error rate, and could be applied multiple times to get even better error rates.

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1. Re:Is this news? by kasperd · 2010-11-14 18:38 · Score: 2, Interesting
  
  what is the overhead for the fault tolerance?
  Most likely that depends on the error rate of the physical hardware. The more errors the fault tolerance has to deal with, the more overhead there will be.
  
  does it affect real time latency?
  Latency is not really what is important to quantum computers. The typical use case for quantum computers is long running computations. The more interesting question is by how large a factor does the number of qubits increase, and does the possible number of qubits in a quantum computer increase fast enough with little increase in error rate to make such techniques useful? The next question will be by which factor the computation will be slowed down. But if the technique is feasible then the slowdown probably doesn't matter as the quantum computer will be much faster than all the alternatives anyway.
  
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The problem with this by fyngyrz · 2010-11-14 13:33 · Score: 3, Interesting

The problem here is the one fault it's not tolerant of is that it isn't even close to being a practical quantum computer, and so lands squarely in that magic world with all the high efficiency solar cells, nanotube based ultracaps, and the myriad of medical discoveries, of which only a very, very few actually make it to market -- the rest are dead ends, for whatever reason. I am actually beginning to find these announcements a little depressing. Either there's something really wrong with our "get it to market" system, or there's an awful lot of bullcrap out there. Neither answer is good.

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Re:The problem with this by socceroos · 2010-11-14 14:07 · Score: 2, Interesting

Surely it can be both correct and incorrect at the same time? =)