qubits in A Sentence

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Sycamore 53- qubit.

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Cold atoms based quantum computation with one clean qubit.

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IBM has also built a prototype 50 Qubit processor.

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Just 40 Qubits would equal the power of today's supercomputers.

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They act as“pointers” to the locations of Qubits within a machine.

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The current record is about 20 Qubits, barely enough for simple computations.

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A qubit can be both 1 and 0 at the same time.

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A Qubit can both be a 1 and 0 at the same time.

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It protects information by store it not in individual Qubits, but in patterns of entanglement among many.

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For quantum computers to work, scientists must find schemes for protecting information even when individual Qubits get corrupted.

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Compared to the information stored in the same number of bits, the information in Qubits rises exponentially.

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While one of these did not perform, the other 53 Qubits were entangled into a superposition state.

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So when IBM rolled out Quantum Experience- which runs on five superconducting Qubits- some did not see the point.

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In terms of the number of Qubits, D-Wave Systems says it is ready to commercially launch a 5000-qubit system by 2020.

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The trick to protecting information in jittery Qubits is to store it not in individual Qubits, but in patterns of entanglement among many.

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Chow says that IBM Q will have more Qubits than Quantum Experience, but the company has not yet settled on a specific number.

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Each qubit is entangled with other Qubits, giving rise to many more possible states that they can be in together, than each of them individually.

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The ORNL team transferred 1.67 bits per qubit, or quantum bit, over a fiber optic cable, edging out the previous record of 1.63 per qubit.

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We are talking about a promising computing machine, which(in theory) does not operate with bits, but Qubits- special quantum bits arranged in a quantum register.

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The qubit(quantum bit) can represent a one, a zero or any quantum superposition of these two states, so it can encode more information than a classical bit.

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Calculations suggest that to reconstruct information about a black hole's interior from Qubits on the boundary, you need access to entangled Qubits throughout roughly three-quarters of the boundary.

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One gate checks the“parity” of the first and second physical qubit- whether they're the same or different- and the other gate checks the parity of the first and third.

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Overlapping regions on the boundary will have overlapping entanglement wedges, Hayden said, just as a logical qubit in a quantum computer is reproducible from many different subsets of physical Qubits.

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These unique outcomes reveal which corrective surgery, if any, needs to be performed- an operation that flips back the first, second or third physical qubit without collapsing the logical qubit.

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Whereas computers transmit information in the form of bits(generally represented by either a 1 or a 0), Qubits can employ two states simultaneously and therefore represent more information than a traditional bit.

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An international group of scientists, consisting of Russian, British and German experts in the field of quantum technologies has created a revolutionary technology of Qubits based on dzhozefsonovskikh the transition that represent.

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And the beauty of such computations is that the size of the problem does not really matter, as the Qubits working together crunch the bigger problems almost as fast as smaller problems.

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The physics of this quantum communication task employed by Williams and his team is similar to that used by quantum computers, which use Qubits to arrive at solutions to extremely complex problems faster than their bit-laden counterparts.

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