Examples of 'qubits can' in a sentence
Meaning of "qubits can"
qubits can - this phrase suggests the capability or potential of qubits, the basic unit of quantum information in quantum computing, to perform certain tasks or computations
How to use "qubits can" in a sentence
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qubits can
Additional qubits can be added by a process called entanglement.
But the ideal measurement of the entanglement of the two qubits can disturb them.
Numerous qubits can also be connected in a special way known as quantum entanglement.
State changes to any combination of M of the M * N qubits can be applied at a time.
Multiple qubits can also be linked in a special way called quantum entanglement.
Unlike digital bits, which exist only as 0s or 1s, qubits can be both at once.
Quantum bits or qubits can exist in a superposition of both states at the same time.
These qubits can solve problems exponentially faster than classical digital computers.
Through a process called entanglement, qubits can affect each other even when they are not connected.
Qubits can store any combination of zero and one at the same time.
Using these two principles, qubits can act in a more complex yet sophisticated manner.
Qubits can be realized with many different kinds of supports,.
The difference is that the qubits can have values 0 and 1 at the same time.
Qubits can be 0 and 1 at the same time thanks to a phenomenon known as superposition.
This quirk means qubits can store and process data at the same time.
See also
Qubits can represent 0 and 1 simultaneously though the phenomenon known as superposition.
The superpositions that qubits can adopt let them each help perform two calculations at once.
Qubits can be linked with other qubits, thanks to another quantum property called entanglement.
For example, qubits can be in a superposition of two states.
Qubits can represent both a 0 and 1 at the same time.
Scientists say qubits can behave like ones or zeros, or both.
Qubits can represent the two states corresponding to the classic binary bits, a 0 or 1.
Generally, n qubits can be in a superposition of 2n states.
These qubits can take many forms, such as trapped ions or molecules.
These qubits can store an enormous amount of information, and uses less energy.
Unlike bits, qubits can be any of the infinite states between 0 and 1.
And 300 qubits can store more numbers simultaneously than there are particles in the universe.
Two qubits can be in any quantum superposition of four ( 22 ) states.
Unlike bits, qubits can store more information than just a 1 or 0.
