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Have quantum computing LotHowever, it faces a scalability problem. In order to be useful in real terms, multiple quantum processors need to be combined in a single place. It enhances the power of a processor but also enhances its size, making it less practical and more subtle. Scientists are working in a solution that seems to be something beyond a science fiction series: to connect the remote core to each other through “quantum teleportation” to create a more powerful machine.
The path to this national information infection has begun to appear. Recently, a group of scientists at the University of Oxford were able to send the first quantum algorithm out of two separate quantum processors. The two small core took advantage of their unique nature, pointed their abilities and formed a higher computer to solve the problems that both of them could not solve independently.
The group, led by Graduate Student Dougal Maine, was able to get remote systems to contact each other and to share logic gates using quantum embroidery. Thanks to this quantum mechanical event, a pair of linked particles can share the same situation even in the distance and therefore send the same information. If there is a change then the other is immediately reflecting it.
Oxford scientists almost immediately got quantum in the computer to transmit the initial information into the computer. When data travels under this policy long under this policy, “quantum teleportation” is known to have occurred. It does not need to be confused with the conventional concept of teleportation, which involves an estimated instant exchange of materials in space. In the experiment, light particles remain in the same place, but allow the computers that “see” each other’s information and allow to work in parallel.
In accordance with the study of the group published NatureAn algorithm quantum teleportation photons and modules were possible to separated by two meters. The rate of faithfulness of the information was 86 percent. The result of this distributed quantum computing architecture is good enough to be a large size technology and an effective way of it As the InternetThe
Quantum teleportation demonstrations in the context of calculations have been raised earlier, but the states are limited to transferring the systems. The trial of the University of Oxford is distinct because it uses teleportation to create interactions in the remote nuclear. “This breakthrough effectively allowed various quantum processors to ‘attach’ to a single, fully connected quantum computer,” Maine.
If distributed quantum computing technology continues to develop, the era of giant quantum machines may be behind us. The problem of scaleBilli can be solved by operating more machines simultaneously through quantum teleportation. Now, a basic processor can handle 50 quiet, quantum information unit. Some scientists have assumed that a machine with the ability to process thousands or millions of quits will be required to solve complex problems.
Even without hugs, quantum machines are already strong enough to solve apparent impossible problems. Willow, Google’s Quantum Chip, recently Solution A benchmark task called random circuit sampling in five minutes; It can take up to 10 quadrillion years for the conventional super computer to get the same results.
This story was originally attended Wired in SpanishAnd have been translated from Spanish.
