在 英语 中使用 Qubits 的示例及其翻译为 中文
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Quantum computers, using qubits, will theoretically be able to perform the calculations necessary to break our current encryptions standards in under a day.
使用量子位的量子计算机理论上将能够在一天之内打破我们当前的加密标准所必需的计算。At the point when three qubits were included, more errors occurred, bringing about an approximately 50 percent success rate.
当涉及到三个量子位元时,会发生更多的错误,导致大约50%的成功率。Through this connection, quantum bits of information- qubits- can be relayed using only traditional forms of classical communication.
We sometimes represent qubits as arrows, so 0 is down and 1 is up.
我们有时用箭头表示量子位,所以0向下,1向上。Clearly, for any system with more than two qubits, some pairs of qubits had to consent to be assigned to the same group.
显然,对于任何有两个以上量子比特的系统,有些量子比特之内分配到同一个组。For years qubits and quantum computers existed mainly on paper, or in fragile experiments to determine their feasibility.
多年来,量子位和量子计算机主要存在于纸上,或者在脆弱的实验中确定它们的可行性。Google's computer, called Sycamore, has 54 entailed superconducting qubits, only 53 of which were reportedly working during the test.
Google的名为Sycamore的计算机具有54个超导量子位,据报道其中只有53个在测试过程中工作。When three qubits were involved, more errors happened, resulting in a roughly 50 percent success rate.
当涉及到三个量子位元时,会发生更多的错误,导致大约50%的成功率。Qubits aren't only useful in processors- they can make powerful sensors as well.
量子位不仅在处理器中有用--它们还能制造强大的传感器。Even if we had millions of qubits today, it is not clear that we have the classical technology to control them.
即使我们今天有数百万的量子比特,也不清楚我们是否拥有控制它们的经典技术。That means two qubits could represent the sequence 1-0, 1-1, 0-1, 0-0 at the same moment in time.
这意味着两个量子位可以在同一时刻代表1-0、1-1、0-1、0-0的顺序。By linking qubits through an almost mystical phenomenon known as entanglement, quantum computers can generate exponential increases in processing power.
通过将量子位通过一种被称为纠缠的近乎神秘的现象连接起来,量子计算机可以产生处理能力的指数级增长。In order to make these qubits talk to each other and perform calculations, using molecules is a much better idea than using atoms.”.
为了让这些量子位相互交谈并进行计算,使用分子比使用原子更好。About 20 years ago, researchers in Japan pioneered"superconducting qubits," for which certain metals are chilled to extremely low temperatures.
大约20年前,日本的研究人员开创了“超导量子比特”,将某些金属冷却到极低的温度。The NISQ chip executes a bunch of operations on the qubits to generate a massive, seemingly randomly changing number as output.
NISQ芯片对量子位元执行一系列的运算,以产生一个庞大的、看似随机变化的数字作为输出。The qubits are stored in five trapped ions that can be manipulated with lasers and can be reconfigured without altering the hardware.
这些量子比特被储存在五个离子阱中,可通过激光操作,也能在不改变硬件的条件下重新配置。Qubits can be any value from 0 to 1, or have properties of both of these values simultaneously.
量子位可以是0到1之间的任意值,或者同时具有这两个值的属性。But this will require 100 or even 500“physical” qubits to represent a single“logical” qubit of very high quality.
但是这需要100或甚至500个“物理”量子位来表示高质量的单个“逻辑”量子比特。The current thinking is that a quantum computer capable of handling 49 qubits will match the capability of the most powerful supercomputer on the planet.
一般认为,能够处理49个量子位的量子计算机性能将可以匹敌全球最强大的超级计算机。The crazy thing is, qubits can also achieve a mixed state, called a“superposition” where they are both 1 and 0 at the same time.
疯狂的是,量子位也可以实现混合状态,称为“叠加”,它们同时是1和0。
